US Pat. No. 9,560,791

METHOD OF MANUFACTURING HEAT CONDUCTIVE SHEET, HEAT CONDUCTIVE SHEET, AND HEAT DISSIPATION MEMBER

Dexerials Corporation, S...

1. A heat conductive sheet, comprising:
a sheet main body made of a cured heat conductive resin composition, in which heat conductive fillers are dispersed in a binder
resin, wherein

a surface of the sheet main body is coated with an uncured component of the binder resin oozing from the sheet main body.

US Pat. No. 9,132,608

WAVELENGTH SELECTIVE OPTICAL ELEMENT FOR REFLECTING LIGHT

DEXERIALS CORPORATION, T...

1. An optical element for transmitting and reflecting light, the optical element comprising:
an optical layer having a flat first surface upon which the light is incident; and
a wavelength-selective reflective layer disposed in the optical layer; wherein:
? is the angle of light incident on the first surface or reflected light exiting through the first surface with respect to
a normal of the first surface; and ? is the angle of a component of the light incident on the first surface or the reflected
light projected on the first surface with respect to a specific line in the first surface,

of light incident on the first surface at an incident angle (?, ?), the optical element selectively directionally reflects
the light in at least one specific wavelength range in at least one direction other than a specular reflection direction (??,
?+180°) while transmitting light in at least one wavelength range other than the specific wavelength range, and is transparent
to light in at least one wavelength range other than the specific wavelength range, and

an intensity of the directionally reflected light in the at least one direction other than the specular reflection direction
(??, ?+180°) is higher than an intensity of light reflected in the specular reflection direction (??, ?+180°).

US Pat. No. 9,426,896

INSULATING RESIN FILM, BONDED STRUCTURE USING INSULATING RESIN FILM, AND PRODUCTION METHOD OF BONDED STRUCTURE

Dexerials Corporation, T...

1. A method for producing a bonded structure, comprising:
arranging a substrate containing an electrode, an electronic part containing stud bumps, and an insulating resin film so that
the electrode of the substrate and the stud bumps of the electronic parts are faced each other via the insulating resin film,
and heating and pressing the substrate and the electronic part to thereby bond the substrate and the electronic part together,

wherein the insulating resin film contains:
a first adhesive layer; and
a second adhesive layer,
wherein the insulating resin film is configured to bond the substrate and the electronic part together, and the first adhesive
layer is provided at a side of the substrate and the second adhesive layer is provided at a side of the electronic part,

wherein the first adhesive layer and the second adhesive layer each contain inorganic filler,
wherein the second adhesive layer has a differential scanning calorimetry (DSC) exothermic peak temperature that is higher
than a DSC exothermic peak temperature of the first adhesive layer,

wherein the first adhesive layer has a thickness that is 50% to 90% of a total thickness of the insulating resin film,
wherein the first adhesive layer contains an epoxy resin and the second adhesive layer contains an epoxy resin, wherein the
epoxy resin in the first adhesive layer is different from the epoxy resin in the second adhesive layer;

wherein the first adhesive layer contains an inorganic filler and the inorganic filler in the first adhesive layer is silica
and the second adhesive layer contains an inorganic filler and the inorganic filler in the second adhesive layer is silica,
and wherein the silica in the first adhesive layer is the same as the silica in the second adhesive layer;

wherein the difference between the DSC exothermic peak temperature of the first adhesive layer and the DSC exothermic peak
temperature of the second adhesive layer is 7° C. to 9.5° C., and

wherein the DSC exothermic peak temperature of the first adhesive layer is 115.5° C. to 118° C.;
wherein the DSC exothermic peak of the second adhesive layer is 125° C. to 127.5° C.

US Pat. No. 9,119,305

TRANSPARENT CONDUCTIVE ELEMENT, INPUT DEVICE, ELECTRONIC DEVICE, AND MASTER FOR FABRICATION OF TRANSPARENT CONDUCTIVE ELEMENT

DEXERIALS CORPORATION, T...

1. A transparent conductive element, comprising:
a base having a surface; and
a transparent conductive part and a transparent insulating part alternately arranged on the surface,
the transparent conductive part being a transparent conductive layer having the shape of a solidly coated film,
the transparent insulating part being a transparent conductive layer composed of plural island portions randomly arranged,
a boundary between the transparent conductive part and the transparent insulating part having a random shape.

US Pat. No. 9,318,353

METHOD OF MANUFACTURING CONNECTION STRUCTURE

DEXERIALS CORPORATION, T...

1. A method of manufacturing a connection structure, the connection structure including a wiring substrate, a first electronic
component flip-chip mounted on a front surface thereof, and a second electronic component flip-chip mounted on a rear surface,
the method comprising the following steps (a) to (d):
Step (a)
a step of temporarily mounting the first electronic component on the front surface of the wiring substrate with a first adhesive
film disposed therebetween;

Step (b)
a step of temporarily mounting the second electronic component on the rear surface of the wiring substrate with a second adhesive
film disposed therebetween, the second adhesive film having a curing temperature lower than a curing temperature of the first
adhesive film;

Step (c)
a step of placing, on a pressure bonding receiving base, the wiring substrate on which the first electronic component and
the second electronic component are temporarily mounted; and

Step (d)
a step of heating the first electronic component while pressing the first electronic component against the wiring substrate
with a heating and pressing tool from the side of the first electronic component, thereby mounting simultaneously the first
electronic component and the second electronic component onto the respective front and rear surfaces of the wiring substrate.

US Pat. No. 9,356,351

ANTENNA APPARATUS, COMMUNICATION APPARATUS, AND ANTENNA APPARATUS MANUFACTURING METHOD

Dexerials Corporation, T...

1. A communication apparatus assembled into an electronic apparatus and made communicatable upon receipt of a magnetic field
transmitted from a transmitter, the communication apparatus comprising:
a laminated member made by mutually superimposing an antenna coil inductively coupled to the transmitter and formed on an
antenna substrate with a magnetic sheet for drawing a magnetic field transmitted from the transmitter to the antenna coil;

a film-shaped protective member that covers the laminated member at least up to an end portion of the magnetic sheet; and
a communication processing unit that carries out communication to and from the transmitter and is driven by an electric current
flowing through the antenna coil,

wherein, when the laminated member is inserted into a center portion of the antenna coil, the antenna coil and the magnetic
sheet are mutually superimposed in a manner such that:

the magnetic sheet is positioned closer to a transmitter side than the antenna coil on an upstream side in a proceeding direction
of the magnetic field oriented by a casing surface opposed to the transmitter, and

the antenna coil is positioned closer to the transmitter side than the magnetic sheet on a downstream side in the oriented
proceeding direction, and

wherein the antenna coil is wound in such a manner that an opening of the antenna coil is positioned in a gap between an end
portion of a conductor made face to face with the transmitter inside a casing of the electronic apparatus and an inner circumferential
wall of the casing.

US Pat. No. 9,453,954

INORGANIC POLARIZING PLATE CONTAINING FESI FINE PARTICLES HAVING 1 TO 33 MOL% FE

DEXERIALS CORPORATION, T...

1. An inorganic polarizing plate comprising:
a substrate that is transparent to light in a used bandwidth;
a reflective layer that is composed of grids that are formed on one surface of the substrate with a pitch that is smaller
than a wavelength of light in the used bandwidth;

a dielectric layer that is stacked on the reflective layer; and
an absorbing layer containing FeSi fine particles that is stacked on the dielectric layer;
wherein an amount of Fe in the FeSi is set in a range of from 1 mol % to 33 mol %.

US Pat. No. 9,155,207

METHOD FOR PRODUCING AN ANISOTROPIC CONDUCTIVE FILM

DEXERIALS CORPORATION, T...

1. A method for producing an anisotropic conductive film, comprising:
simultaneously spraying conductive particles, to which electrostatic potential is applied by means of an electrostatic potential
applying unit, from one spraying unit, and resin particles from another spraying unit on a processing surface so as to align
the conductive particles within a resin film formed of the resin particles;

wherein the resin particles are formed of at least one insulating resin selected from an epoxy resin and an acrylic resin;
wherein the electrostatic potential of the conductive particles is in the range of 300 V to 1,500 V;
wherein the conductive particles sprayed from the spraying unit travel to the processing surface at the speed of 0.3 m/min
or slower.

US Pat. No. 9,337,671

PROTECTIVE ELEMENT, PROTECTIVE ELEMENT FABRICATION METHOD, AND BATTERY MODULE IN WHICH PROTECTIVE ELEMENT IS EMBEDDED

Dexerials Corporation, T...

1. A protective element comprising:
a substrate comprising a first insulating member and a concave portion;
a heating body layered on the concave portion of the substrate;
a second insulating member layered on the substrate covering the heating body;
first and second electrodes layered on a surface of the substrate on which the second insulating member is layered;
a heating body electrode layered on the second insulating member superimposed with the heating body, and electrically connected
to a current path between the first and the second electrodes and the heating body; and

a low-melting point metal layered between the heating body electrode and the first and the second electrodes so as to cause
a blowout of the current path between the first and the second electrodes by heating,

wherein the heating body electrode is disposed at a same or lower position in a thickness direction of the substrate relative
to the first and the second electrodes.

US Pat. No. 9,520,436

SOLID-STATE IMAGING DEVICE AND MANUFACTURING METHOD THEREOF

Dexerials Corporation, T...

1. A solid-state imaging device comprising:
a first conductivity type semiconductor layer;
a gate insulating film located on the semiconductor layer;
a gate electrode located on the gate insulating film;
a first conductivity type first impurity region that is located in the semiconductor layer so as to be outside the gate electrode
and start from a first end portion of the gate electrode in plan view;

a first conductivity type second impurity region that is located in the semiconductor layer so as to extend under the gate
electrode from a first end portion side and be in contact with the first impurity region;

a second conductivity type third impurity region that is located in the semiconductor layer under the second impurity region
and includes a portion that is under the first impurity region;

a second conductivity type fifth impurity region that is located in the semiconductor layer so as to extend under the first
impurity region and the third impurity region, be in contact with the gate insulating film and the second impurity region,
and surround the third impurity region in plan view; and

a second conductivity type fourth impurity region that is located in the semiconductor layer and includes a portion that is
under a second end portion of the gate electrode,

wherein the first impurity region, the second impurity region, the fifth impurity region, and the semiconductor layer are
located in the stated order from the outside of the gate electrode on the first end portion side toward the second end portion
of the gate electrode in plan view, impurity concentration in the first impurity region, the second impurity region, and the
semiconductor layer decreases in the stated order, and impurity concentration in the fifth impurity region is lower than that
of the third impurity region.

US Pat. No. 9,423,638

RESIN COMPOSITION AND DISPLAY UNIT

DEXERIALS CORPORATION, T...

1. An image display unit comprising:
an image display part;
a light-transmitting protective part arranged on the image display part; and
a cured resin layer arranged between the image display part and the protective part,
wherein:
the cured resin layer is formed of a photocurable resin composition comprising:
at least one polymer selected from the group consisting of polyurethane acrylate, polyisoprene acrylate, ester of polyisoprene
acrylate, hydrogenated terpine resin, and butadiene polymer;

at least one acrylate monomer selected from the group consisting of isobornyl acrylate, dicyclopentenyloxyethyl methacrylate,
and 2-hydroxybutyl methacrylate; and

at least one photopolymerization initiator;
the cured resin layer has:
a transmittance of 90% or higher in the visible range,
a storage modulus at 25° C. of 1×107 Pa or less, and

a cure shrinkage of 0 to 2.0%; and
curing of the resin composition imparts an average surface roughness of 6 nm or less to a surface of the protective part or
a surface of the image display part.

US Pat. No. 9,368,374

METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE

Dexerials Corporation, T...

1. A method of manufacturing a semiconductor device, including placing a semiconductor chip provided with a plurality of bumps
arranged in a peripheral alignment by flip-chip mounting on a substrate provided with a plurality of electrodes corresponding
to the bumps via an insulating resin adhesive film,
the method being characterized by temporarily affixing an insulating resin adhesive film having a minimum melt viscosity of
8×103 to 1×105 Pa·s, to the substrate so as to cover 70 to 90% the area of the region enclosed with the plurality of bumps of the semiconductor
chip arranged in the peripheral alignment; aligning the semiconductor chip and the substrate with each other such that the
bumps and the electrodes corresponding thereto are opposed to each other; and performing hot pressing against the semiconductor
chip to establish metallic contact between the bumps and the electrodes, to melt the insulating resin adhesive film so that
the melted insulating resin does not flow over to the outside of the semiconductor chip, and to heat cure the film;

wherein:
during performing hot pressing, the melted insulating resin adhesive film spreads toward an outer edge of the semiconductor
chip, and is cured, to obtain a semiconductor where a periphery of the cured insulating resin adhesive film is defined between
the plurality of bumps arranged in the peripheral alignment and the outer edge of the semiconductor chip, exclusive.

US Pat. No. 9,196,599

CONNECTION DEVICE, METHOD FOR MANUFACTURING CONNECTION STRUCTURE, METHOD FOR MANUFACTURING STACKED CHIP COMPONENT AND METHOD FOR MOUNTING ELECTRONIC COMPONENT

Dexerials Corporation, T...

1. A method for manufacturing a chip stacked component in which a plurality of chip substrates are stacked, each of the plurality
of chip substrates is connected to one another electrically and mechanically, the method comprising:
mounting bumps formed on one surface of each chip substrate on an electrode formed on another surface of an adjacent chip
substrate with a thermosetting adhesive agent interposed therebetween such that a chip stacked body on which a plurality of
chip substrates are stacked is formed; and

disposing a first elastic body on an upper surface side of the chip stacked body, disposing a support member for supporting
the first elastic body on a periphery of the chip stacked body, and heating and pressing the chip stacked body by using a
heat press head with the first elastic body being interposed therebetween.

US Pat. No. 9,082,545

ANTENNA DEVICE AND COMMUNICATION DEVICE

DEXERIALS CORPORATION, T...

1. An antenna device comprising:
a resonant circuit having an antenna coil and a capacitor electrically connected to the antenna coil, the antenna coil receiving
a magnetic field transmitted from a transmitter at a predetermined oscillation frequency, the resonant circuit becoming communicable
when inductively coupled to the transmitter; and

a magnetic sheet to be formed at a position superposed on the antenna coil to change an inductance of the antenna coil,
the antenna coil having a temperature characteristic in which the inductance is monotonously changed with a temperature change
in a use temperature range, and the magnetic sheet being made of a magnetic material having a temperature characteristic of
monotonously decreasing the inductance of the antenna coil so as to achieve a characteristic inverse to the change of the
inductance of the antenna coil with the temperature change in the use temperature range and substantially matching a resonance
frequency of the resonant circuit with the oscillation frequency in the use temperature range.

US Pat. No. 9,063,287

OPTICAL BODY WITH DIFFUSION REFLECTIVITY, WALL MEMBER, FITTING, AND SOLAR SHADING DEVICE

DEXERIALS CORPORATION, T...

1. An optical body with diffusion reflectivity comprising:
a first optical layer having a random concave-convex surface;
a reflecting layer formed on the concave-convex surface; and
a second optical layer formed on the reflecting layer so as to fill the concave-convex surface;
wherein the reflecting layer is a wavelength-selective reflecting layer for diffusely reflecting, of incident light, light
in a specific wavelength band and transmitting light other than the specific wavelength band therethrough, and

wherein a value of transmission image clarity for the light at wavelengths transmitting through the optical body is not smaller
than 50 when measured in conformity with JIS K-7105 using an optical comb with a comb width of 0.5 mm.

US Pat. No. 9,437,521

THERMALLY CONDUCTIVE SHEET

DEXERIALS CORPORATION, T...

1. A thermally conductive sheet comprising:
a curable resin composition;
thermally conductive fibers; and
thermally conductive particles,
wherein the thermally conductive sheet has a thickness of more than 1.5 mm and 3.0 mm or less,
wherein the thermally conductive sheet has a compressibility of 40% or more, and has a minimum value of a thermal resistance
in a load range of 0.5 kgf/cm2 or more and 3 kgf/cm2 or less, and

wherein the thermally conductive sheet has a peak value of a thermal conductivity of 15 W/mK or more in the compressibility
thereof of 20% or less.

US Pat. No. 9,360,608

POLARIZING ELEMENT

DEXERIALS CORPORATION, T...

20. A projector comprising:
a polarizing element;
a light source; and
an image display panel,
wherein the polarizing element comprises a transparent substrate, an absorbing layer constituting, on the transparent substrate,
grid-shaped convexities arrayed at a pitch smaller than wavelengths in a used optical bandwidth, a dielectric layer formed
on the absorbing layer constituting the grid-shaped convexities, and a reflective layer formed on the dielectric layer constituting
the grid-shaped convexities, wherein each of the convexities is formed by the absorbing layer, the dielectric layer and the
reflective layer, and

wherein the polarizing element receives light in the used optical bandwidth from the light source at a side close to the transparent
substrate and transmits the light.

US Pat. No. 9,354,462

IMAGE DISPLAY DEVICE

DEXERIALS CORPORATION, T...

1. An image display device comprising:
a display-side panel including an image display unit and a frame member surrounding the image display unit;
a protection member disposed on the display-side panel;
a cured resin layer interposed between the display-side panel and the protection member; and
a sealing film that covers a gap formed between the image display unit and the frame member, the sealing film being disposed
across and over between the image display unit and the fame member, wherein the cured resin layer is disposed on the sealing
film such that the cured resin layer covers an upper surface of the sealing film and at least two side surfaces of the sealing
film.

US Pat. No. 9,279,928

RETARDATION ELEMENT COMPRISING A BIREFRINGENT MULTILAYER STRUCTURE, LIQUID CRYSTAL DISPLAY DEVICE, AND PROJECTION DISPLAY DEVICE

DEXERIALS CORPORATION, T...

1. A retardation element, comprising:
a transparent substrate; and
a birefringent multilayer structure formed of a plurality of layered structures stacked over the transparent substrate and
each formed of a first birefringent layer that comprises an optically anisotropic inorganic material and a second birefringent
layer that comprises an optically anisotropic inorganic material and contacts the first birefringent layer,

wherein in at least one of the layered structures, a relationship between an average thickness (t1) of the first birefringent
layer and an average thickness (t2) of the second birefringent layer satisfies any of the formulae (1) and (2) below,

wherein in the at least one of the layered structures, an angle (?) formed between a first line segment representing a principal
axis of refractive index anisotropy of the first birefringent layer and a second line segment representing a principal axis
of refractive index anisotropy of the second birefringent layer satisfies the formula (3) below when the first line segment
and the second line segment are projected on the transparent substrate such that an end A of the first line segment at a side
of the transparent substrate and an end B of the second line segment at a side of the transparent substrate coincide with
each other, and

wherein the at least one of the layered structures satisfies the condition (4) below,
0
0
90° t1?t2 or ??180°  condition (4).

US Pat. No. 9,252,488

ANTENNA APPARATUS AND COMMUNICATION APPARATUS

DEXERIALS CORPORATION, T...

1. An antenna apparatus which is incorporated in an electronic device and which is enabled to perform communication by receiving
a magnetic field transmitted from a transmitter comprising:
an antenna coil which is wound in a clearance between an end portion of a conductive body opposing the transmitter within
a casing of the electronic device and an inner peripheral wall of the casing so as not to surround an outer peripheral portion
of the conductive body and which is inductively coupled with the transmitter;

wherein the antenna coil is disposed upon being inclined with respect to a surface opposing the transmitter with an end portion
on the conductive body side being a central axis.

US Pat. No. 9,243,184

RED PHOSPHOR, METHOD FOR PRODUCING RED PHOSPHOR, WHITE LIGHT SOURCE, ILLUMINATING DEVICE, AND LIQUID CRYSTAL DISPLAY DEVICE

DEXERIALS CORPORATION, T...

1. A red phosphor comprising:
an element A, europium (Eu), silicon (Si), aluminum (Al), oxygen (O), and nitrogen (N) at the atom number ratio of the composition
formula (1)

[A(m-x)Eux]Si9AlyOnN[12+y-2(n-m)/3]  Composition Formula (1); and

Carbon,
wherein the element A in the composition formula (1) is at least one of magnesium (Mg), calcium (Ca), strontium (Sr), and
barium (Ba), and m, x, y, and n in the composition formula (1) satisfy the relations 4.5
wherein the compound of the composition formula (1) has a crystal structure that belongs to an orthorhombic system spatial
point group Pmn21.

US Pat. No. 9,585,247

ANISOTROPIC CONDUCTIVE FILM AND METHOD OF PRODUCING THE SAME

DEXERIALS CORPORATION, T...

1. An anisotropic conductive film comprising a first connection layer, and a second connection layer formed on one surface
of the first connecting layer, wherein
the first connection layer is obtained by photo-radical polymerization of a photo-radical polymerizable resin layer containing
an acrylate compound and a photo-radical polymerization initiator,

the second connection layer includes a thermal- or photo-, cationic or anionic polymerizable resin layer containing an epoxy
compound and a thermal- or photo-, cationic or anionic polymerization initiator, or a thermal- or photo-radical polymerizable
resin layer containing an acrylate compound and a thermal- or photo-radical polymerization initiator, and

conductive particles for anisotropic conductive connection are arranged in a single layer on a second connection layer-side
surface of the first connection layer.

US Pat. No. 9,459,475

METHOD OF MANUFACTURING IMAGE DISPLAY DEVICE

DEXERIALS CORPORATION, T...

1. A method of manufacturing an image display device where an image display member and a light-transmitting cover member with
a light-shielding layer formed on a peripheral portion thereof are stacked via a light-transmitting cured resin layer formed
from a liquid photo-curable resin composition such that a light-shielding layer forming surface of the light-transmitting
cover member is disposed on a side of the image display member, the method comprising the following steps of (A) to (D):

a step of applying the liquid photo-curable resin composition to the light-shielding layer forming surface of the light-transmitting
cover member or a surface of the image display member to a thickness greater than that of the light-shielding layer so as
to cancel a step formed between the light-shielding layer and the light-shielding layer forming surface of the light-transmitting
cover member,

wherein the liquid photo-curable resin composition comprises a radical photopolymerization initiator;

a step of pre-curing the applied photo-curable resin composition with irradiation of ultraviolet rays so as to form a pre-cured
resin layer;


a step of bonding the light-transmitting cover member to the image display member such that the light-shielding layer and
the pre-cured resin layer are located between the light-transmitting cover member and the image display member; and


a step of subjecting the pre-cured resin layer held between the image display member and the light-transmitting cover member
to the irradiation of ultraviolet rays to completely cure the resin layer to thereby stack the image display member and the
light-transmitting cover member via the light-transmitting cured resin layer to obtain the image display device, wherein

the pre-curing in the step (B) is conducted so as to obtain a cure shrinkage ratio of less than 3% in the step (D) when a
total value of cure shrinkage ratios of the liquid photo-curable resin composition based on the pre-curing in the step (B)
and the complete curing in the step (D) is greater than 5%, and

after the resin layer is completely cured, the completely cured resin layer completely covers a side of the shielding layer
that is opposite to a side of the shielding layer that contacts the light-transmitting cover member, and a side of the completely
cured resin layer that is opposite to the side of the completely cured resin layer that completely covers the shielding layer
forms a substantially flat surface.

US Pat. No. 9,397,360

DRIVE UNIT, LENS MODULE, IMAGE PICKUP UNIT, FUEL CELL, AND ION EXCHANGE RESIN

Dexerials Corporation, T...

14. An image pickup unit comprising:
a lens;
an image pickup device configured to acquire an image pickup signal of image formation by the lens; and
a drive unit configured to drive the lens,
wherein the drive unit includes at least one polymer actuator device including an ionic conductive polymer compound film,
and wherein the ionic conductive polymer compound film includes an ion exchange resin and a moisturizing agent dispersed in
the ion exchange resin

wherein the moisturizing agent includes a water molecule adsorbent;
wherein the water molecule adsorbent includes porous fine particles;
wherein the porous fine particles include at least one of zeolite and silica; and
wherein a content of the zeolite in the ion exchange resin is substantially from 0.25 wt % to substantially 1.00 wt %.

US Pat. No. 9,348,062

IMAGE DISPLAY DEVICE

DEXERIALS CORPORATION, T...

1. A method for manufacturing an image display device, the method comprising the steps of:
applying a layer of a photo-curable resin composition onto a display-side panel that includes an image display unit and a
frame member surrounding the image display unit,

the photo-curable resin composition being applied across and over both the image display unit and the frame member of the
display-side panel, wherein

a gap is formed between the image display unit and the frame member as a result of the photo-curable resin composition application,
a top surface of the gap being defined by the layer of the photo-curable resin composition and a bottom surface of the gap
being defined by a backlight;

disposing a protection member on the applied photo-curable resin composition; and
photo-curing the applied photo-curable resin composition to form a cured resin layer, wherein
the photo-curable resin composition has a viscosity (as determined at 25° C. and 10 rpm using a rotational viscometer with
a cone-plate taper angle of C35/2°) of 3,000 mPa·s to 12,000 mPa·s; and

the photo-curable resin composition contains:
at least one polymer selected from the group consisting of polyisoprene acrylate, an esterified product thereof, a hydrogenated
terpene resin, and a polybutadiene polymer;

at least one acrylate monomer selected from the group consisting of isobornyl acrylate, dicyclopentenyloxyethyl methacrylate,
and 2-hydroxybutyl methacrylate; and

a photo-polymerization initiator.
US Pat. No. 9,437,462

UNDERFILL MATERIAL AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE BY USING THE SAME

DEXERIALS CORPORATION, T...

1. A method of manufacturing a semiconductor device comprising:
a semiconductor chip mounting step configured to mount a semiconductor chip having a solder bump on a substrate via an underfill
film including a film forming resin having a weight average molecular weight of not more than 30000 g/mol and a molecular
weight distribution of not more than 2.0, an epoxy resin, and an epoxy curing agent, wherein the film forming resin is a tri-block
copolymer of p-hydroxystyrene and ethyl vinyl ether; and

a reflow step configured to solder-bond the above-mentioned semiconductor chip and the above-mentioned substrate by a reflow
furnace.

US Pat. No. 9,492,954

METHOD OF MANUFACTURING PLATE-SHAPED BONDED BODY, BONDING DEVICE, AND PLATE-SHAPED BONDED BODY

DEXERIALS CORPORATION, T...

1. A method of manufacturing a plate-shaped bonded body, comprising:
a holding step in which respective adhesive surfaces of a first substrate and a second substrate are made to face each other
and in which the adhesive surface of the second substrate is held above the first substrate while the adhesive surface of
the second substrate warps towards the first substrate;

a discharging step in which, while the second substrate is warped towards the first substrate, a dispensing nozzle is inserted
from an inserting end side of the first and second substrates into a most approximate position of the first substrate and
a curve top portion of the second substrate and in which a liquid filler is discharged from the dispensing nozzle while moving
the nozzle back along the most approximate position from one end side hi the width direction of the first and second substrates
to the inserting end side to adhere the liquid filler to the first substrate and the second substrate along the most approximate
position for at least most of the width of the first and second substrates; and

a filling step in which pressing members are disposed on the second substrate at a position corresponding to the most approximate
position and in which the liquid filler is fit and spread between the first and second substrates by making the pressing members
move on the second substrate,

wherein the second substrate is held in parallel to the first substrate in accordance with moving positions of the pressing
members.

US Pat. No. 9,228,116

THERMOSETTING RESIN COMPOSITION, THERMOSETTING ADHESIVE SHEET, AND METHOD OF PRODUCING THERMOSETTING ADHESIVE SHEET

DEXERIALS CORPORATION, T...

1. A thermosetting resin composition comprising an acrylic copolymer including an epoxy group-containing (meth)acrylate unit,
an epoxy resin, and a curing agent for an epoxy resin, wherein
epoxy groups in at least the acrylic copolymer are partially cross-linked with an amine compound and a thiol compound having
2 to 4 thiol groups per molecule, and

the curing agent for an epoxy resin is an organic acid dihydrazide.
US Pat. No. 9,309,457

METHOD FOR MANUFACTURING COATED PHOSPHOR, AND COATED PHOSPHOR

DEXERIALS CORPORATION, T...

1. A method for manufacturing a coated phosphor in which a phosphor is coated with a coating material comprising:
a mixing step of mixing the phosphor with the coating material in a solvent to form a mixed solution; and
a separation step of separating the mixed solution into a solid phase and a liquid phase, wherein
the phosphor contains barium (Ba), strontium (Sr), europium (Eu), silicon (Si) and oxygen (O) at an atomic ratio represented
by compositional formula (1), and

the mass ratio of the phosphor to the coating material is 40:260 to 200:260,
[(Ba1-ySry)1-xEux]aSibOc   compositional formula (1)
wherein a, b, c, x and y satisfy the relationships: 2.7 wherein the uncoated phosphor has a specific surface area equal to or more than 2 m2/g, andthe coating material is an alkylsilane compound.

US Pat. No. 9,080,081

METHOD FOR MANUFACTURING DISPLAY DEVICE, AND TRANSPARENT RESIN FILLER

Dexerials Corporation, T...

1. A method for manufacturing a display device, the method comprising:
inserting a dispensing nozzle between an image display panel and a front panel of the display device;
supplying a transparent resin filler from the dispensing nozzle to form a predetermined pattern such that the predetermined
pattern contacts both the image display panel and the front panel;

pressing the image display panel or the front panel at a pressure greater than a normal pressure;
spreading the transparent resin filler to fill a gap between the panels by subjecting the resin filler to the normal pressure;
and

forming a transparent resin filled layer by curing the transparent resin filler.

US Pat. No. 9,084,373

THERMALLY CONDUCTIVE ADHESIVE

DEXERIALS CORPORATION, T...

1. A thermally conductive adhesive comprising a thermosetting adhesive containing a curable component and a curing agent for
the curable component, and a metal filler dispersed in the thermosetting adhesive, wherein
the metal filler has a silver powder and a solder powder,
the solder powder has a melting temperature lower than a thermal curing temperature of the thermally conductive adhesive and
produces a high-melting-point solder alloy having a melting point higher than the melting temperature of the solder powder
when the solder powder is reacted with the silver powder under thermal curing conditions of the thermally conductive adhesive,

the curing agent has flux activity to the metal filler, and
the curable component is a glycidyl ether-based epoxy resin, and the curing agent is a monoacid anhydride of tricarboxylic
acid.

US Pat. No. 9,416,254

PHOTOCURABLE ACRYLIC-BASED THERMAL CONDUCTIVE COMPOSITION, ACRYLIC-BASED THERMAL CONDUCTIVE SHEET, AND METHOD OF PRODUCING THE SAME

DEXERIALS CORPORATION, T...

1. A photocurable acrylic-based thermal conductive composition suitable for an acrylic-based thermal conductive sheet, the
photocurable acrylic-based thermal conductive composition comprising 100 parts by mass of a (meth)acrylate monomer, 300 to
2,000 parts by mass of a thermal conductive filler, 0.5 to 7.0 parts by mass of a photo-radical polymerization initiator,
0.5 to 4.0 parts by mass of a primary antioxidant, 0.5 to 8.0 parts by mass of a secondary antioxidant, and 0.1 to 4.0 parts
by mass of a thermal degradation inhibitor.

US Pat. No. 9,365,001

THERMALLY CONDUCTIVE SHEET AND PROCESS FOR PRODUCING SAME

DEXERIALS CORPORATION, T...

1. A thermally conductive sheet produced by the following steps:
extruding a thermally conductive composition containing a polymer, an anisotropic thermally conductive filler and another
filler through an extruder, thereby extrusion molding an extrusion molded product in which the anisotropic thermally conductive
filler is oriented along the extrusion direction;

curing the extrusion molded product to form a cured object; and
cutting the cured object in a direction perpendicular to the extrusion direction into a given thickness with an ultrasonic
cutter,

wherein the anisotropic thermally conductive filler is prepared as carbon fibers and has an average fiber length of 100 ?m
or more,

the other filler is prepared as spherical alumina particles and has an average particle size in a range from 1 ?m to 40 ?m,
the carbon fibers are oriented in the range from 0° to 5° with respect to the thickness direction of the thermally conductive
sheet,

a peripheral portion on a surface of the thermally conductive sheet has a slight stickiness that is higher than that of an
inside portion on the surface of the thermally conductive sheet, the inside portion of the thermally conductive sheet being
encompassed by the peripheral portion of the thermally conductive sheet,

the thermally conductive sheet has a cut surface having a surface roughness Ra of 9.9 ?m of less,
the polymer is a silicone resin,
the spherical alumina particles are contained in a range from 40 to 55% by volume; and
the carbon fibers are contained in a range from 10 to 25% by volume.

US Pat. No. 9,318,658

METHOD FOR MANUFACTURING RED PHOSPHOR

DEXERIALS CORPORATION, T...

1. A method for manufacturing a red phosphor comprising steps of:
mixing an element A-containing compound, a nitrogen-free europium, a silicon-containing compound, an aluminum-containing compound
and a carbon-containing reducing agent so as to form a mixture, the atomic ratio among element A, europium (Eu), silicon (Si),
aluminum(Al) and carbon (C) being a value represented by composition formula (1);

firing the mixture; and milling the fired mixture;
(Am-xEux)Aly(Si1-zCz)9OnN[12+y-2(n-m)/3]  composition formula (1)

wherein the element A is at least one element selected from the group of magnesium (Mg), calcium (Ca), strontium (Sr) and
barium (Ba), and m, x, z and n satisfy the relation: 3

US Pat. No. 9,309,374

PHOTOCURABLE RESIN COMPOSITION AND METHOD OF MANUFACTURING IMAGE DISPLAY DEVICE USING THE SAME

DEXERIALS CORPORATION, T...

1. A method of manufacturing an image display device including an image display member and a light-transmitting cover member
that are stacked through a light-transmitting cured resin layer formed from a photocurable resin composition in a liquid form,
the method comprising the following steps (A) to (C):

a step of applying the photocurable resin composition in a liquid form to a surface of the light-transmitting cover member
or a surface of the image display member;


a step of irradiating the applied photocurable resin composition with ultraviolet rays to form a cured resin layer having
a degree of curing 90% or higher; and


a step of laminating the light-transmitting cover member to the image display member such that the cured resin layer is disposed
inward to thereby obtain the image display device, wherein

the photocurable resin composition contains the following components (a) to (d):
an acrylate-based oligomer component selected from the group consisting of a polyisoprene-based (meth)acrylate
oligomer, a polybutadiene-based (meth)acrylate oligomer, and a polyurethane-based (meth)acrylate oligomer;

an acrylic-based monomer component;
a plasticizer component; and
a photoradical polymerization initiator component; wherein
a total amount of the component (a) and the component (b) contained in the photocurable resin composition is 25 to 80% by
mass, an amount of the component (c) contained in the photocurable resin composition is 30 to 60% by mass, the component (c)
contains a solid tackifier having a softening point of 60 to 150° C. and a liquid plasticizing component as well as contains
a tackifier and a liquid plasticizing component, and a mass ratio of the tackifier to the liquid plasticizing component is
in a range of 60 to 30:30 to 10.

US Pat. No. 9,281,096

ANISOTROPIC CONDUCTIVE MATERIAL AND PROCESS FOR PRODUCTION THEREOF, AND MOUNTING BODY AND PROCESS FOR PRODUCTION THEREOF

DEXERIALS CORPORATION, T...

1. An anisotropic conductive material, comprising an adhesive composite and conductive particles dispersed in the adhesive
composite, the adhesive composite containing a film forming resin, an ethylene vinyl acetate copolymer, a radical polymerizable
resin, and a radical polymerization initiator,
wherein a melt flow rate of the ethylene vinyl acetate copolymer according to Condition D of JIS-K7210 is not less than 400
g/10 min.

US Pat. No. 9,122,093

OPTICAL MEMBER AND DISPLAY DEVICE

DEXERIALS CORPORATION, T...

1. A display device comprising:
a light source;
an optical member transmitting light emitted from the light source;
a display panel displaying an image by using the light passed through the optical member; and
a diffusion film, a lens film, and a reflection-type polarization film provided in order from the optical member between the
optical member and the display panel,

wherein the optical member comprises:
a diffusion plate having two opposed surfaces,
a phosphor layer provided directly on one of the two opposed surfaces of the diffusion plate and containing a phosphor that
converts a color light emitted from the light source to another color light, and

a protection layer provided on a surface of the phosphor layer opposite to the diffusion plate,
wherein the phosphor layer is made of cycloolefin resin and the protection layer is made of a material having gas barrier
property.

US Pat. No. 9,481,787

METHOD FOR PRODUCING LATENT CURING AGENT

DEXERIALS CORPORATION, T...

1. A method for producing a latent curing agent in which an imidazole compound is held in porous resin particles obtained
by interfacial polymerization of a polyfunctional isocyanate compound, the method comprising the following steps (A) to (E):
Step (A) a step of obtaining an oil-in-water emulsion by emulsifying an oil phase obtained by dissolving a polyfunctional
isocyanate compound in an organic solvent in an aqueous phase obtained by dissolving a water-soluble polypeptide and a surfactant
in water;

Step (B) a step of forming porous resin particles by interfacial polymerization of the polyfunctional isocyanate compound
in the oil phase by heating the oil-in-water emulsion;

Step (C) a step of carrying out an enzyme degradation treatment on the porous resin particles by adding a proteolytic enzyme
into an interfacial polymerization solution in which the porous resin particles are dispersed;

Step (D) a step of recovering the porous resin particles that have been subjected to the enzyme degradation treatment from
the interfacial polymerization reaction solution; and

Step (E) a step of acquiring a latent curing agent in which an imidazole compound is held in porous resin particles, by mixing
the recovered porous resin particles with an imidazole compound solution obtained by dissolving an imidazole compound in an
organic solvent, wherein the imidazole compound solution further includes a tertiary amine compound and the tertiary amine
compound is present in an amount that is 0.1 to 0.8 times by mass an amount of the imidazole compound, to make the imidazole
compound solution permeate into the porous resin particles.

US Pat. No. 9,459,197

METHOD FOR MEASURING DYNAMIC VISCOELASTICITY OF PARTICULATE MATERIAL

DEXERIALS CORPORATION, T...

1. A method for measuring a dynamic viscoelasticity of a particulate material, the method comprising:
subjecting a sheet-shaped test piece as a sample to dynamic viscoelasticity measurement,
the sheet-shaped test piece comprising a heat-resistant sheet base material, an adhesion layer, and a particulate material
to be measured, and

the adhesion layer being formed on the heat-resistant sheet base material, and the particulate material being attached to
the adhesion layer;

performing the dynamic viscoelasticity measurement, which is a temperature dependent measurement, under the following measurement
conditions:

a measurement temperature is within a predetermined temperature range of from ?150 to 300° C.;
a heating rate is a constant rate ranging from 0.01 to 100° C./minute;
a measurement frequency is a constant frequency ranging from 0.01 to 100 Hz; and
using a sine wave control tensile mode; and
forming each of the adhesion layer and the heat-resistant sheet base material each from a material having a maximum peak top
of loss tangent tan ? that does not overlap with a maximum peak top of loss tangent tan ? of the particulate material to be
measured in the measurement temperature range of the dynamic viscoelasticity measurement.

US Pat. No. 9,279,911

IMAGE DISPLAY DEVICE

DEXERIALS CORPORATION, T...

1. A method for manufacturing an image display device, the method comprising the steps of:
applying a layer of a photo-curable resin composition onto a display-side panel that includes an image display unit and a
frame member surrounding the image display unit,

the photo-curable resin composition being applied across and over both the image display unit and the frame member of the
display-side panel, wherein

a gap is formed between the image display unit and the frame member as a result of the photo-curable resin composition application,
a top surface of the gap being defined by the layer of the photo-curable resin composition and a bottom surface of the gap
being defined by a backlight;

disposing a protection member on the applied photo-curable resin composition; and
photo-curing the applied photo-curable resin composition to form a cured resin layer, wherein
the photo-curable resin composition has a viscosity (as determined at 25° C. and 10 rpm using a rotational viscometer with
a cone-plate taper angle of C35/2°) of 3,000 mPa·s to 12,000 mPa·s; and

the photo-curable resin composition contains:
at least one polymer selected from the group consisting of polyisoprene acrylate, an esterified product thereof, a hydrogenated
terpene resin, and a polybutadiene polymer;

at least one acrylate monomer selected from the group consisting of isobornyl acrylate, dicyclopentenyloxyethyl methacrylate,
and 2-hydroxybutyl methacrylate; and

a photo-polymerization initiator.
US Pat. No. 9,453,144

RADICAL POLYMERIZABLE ADHESIVE COMPOSITION AND METHOD OF PRODUCING ELECTRICAL CONNECTION BODY

DEXERIALS CORPORATION, T...

1. A radical polymerizable adhesive composition comprising a radical polymerizable compound, a thermal-radical polymerization
initiator, and a photoacid generator, but comprising no cationic polymerizable compound that undergoes cationic polymerization
initiated by an acid generated by the photoacid generator.

US Pat. No. 9,418,958

ANISOTROPIC CONDUCTIVE ADHESIVE

DEXERIALS CORPORATION, T...

1. An anisotropic conductive adhesive comprising an epoxy adhesive containing an epoxy compound and a curing agent and conducive
particles dispersed in the epoxy adhesive, wherein when elastic moduluses at 35° C., 55° C., 95° C., and 150° C. of a cured
product of the anisotropic conductive adhesive are denoted by EM35, EM55, EM95, and EM150, respectively, and change rates in the elastic modulus between 55° C. and 95° C. and between 95° C. and 150° C. are denoted
by ?EM55-95 and ?EM95-150, respectively, the following expressions (1) to (5) are satisfied
700 MPa?EM35?900 MPa or 2600 MPa?EM35 ?3000 MPa   (1)

EM150
?EM55-95
29%??EM55-95?32%  (4)

40%??EM95-150  (5).

US Pat. No. 9,337,796

CAPACITANCE DEVICE AND RESONANCE CIRCUIT

DEXERIALS CORPORATION, T...

10. A capacitance device comprising:
a dielectric layer;
a first electrode that is formed in a predetermined first shape on a predetermined surface of the dielectric layer;
a second electrode that is formed on an opposite surface of the dielectric layer opposite to the predetermined surface, has
a first region overlapping a projection pattern obtained by projecting the first electrode onto the opposite surface, and
is formed in a second shape such that an area of the first region does not change even when the first electrode undergoes
relative displacement in a predetermined direction within the predetermined surface;

a first external terminal that is provided on a first side surface of the dielectric layer, and is connected to the first
electrode; and

a second external terminal that is provided on a second side surface of the dielectric layer opposing the first side surface,
and is connected to the second electrode,

wherein the first electrode has a first electrode portion including an electrode region corresponding to the first region
and extending in a first direction within the predetermined surface and a first terminal portion for electrically externally
connecting the first electrode portion,

the second electrode has a second electrode portion including an electrode region corresponding to the first region and extending
in a second direction crossing the first direction within the opposite surface and a second terminal portion for electrically
externally connecting the second electrode portion,

the first terminal portion and the second terminal portion are respectively formed wider than the first electrode portion
and the second electrode portion,

the first electrode portion and the second electrode portion are individually formed in such shapes that the area of the first
region does not change even when the first electrode undergoes relative displacement with respect to the second electrode
within the predetermined surface in a direction orthogonal to the predetermined direction, and

the dielectric, layer is formed of a ferroelectric material, and capacity changes depending on a control signal applied by
an outside circuit, and

the first external terminal and the second external terminal are located on the respective first and second side surfaces
of the dielectric layer offset from each other.

US Pat. No. 9,302,432

METHOD OF MANUFACTURING COLOR CONVERTING MEMBER

DEXERIALS CORPORATION, T...

1. A method of manufacturing a color converting member, comprising:
a molding process to obtain a plate by kneading a resin material and a phosphor that converts one color light to another color
light, and

molding the resin material and the phosphor integrally into a shape; and
a dots forming process to obtain a color converting member, which can perform light propagation and color conversion, by printing
dots on a bottom surface of the plate,

wherein in the color converting member, an emitted light that a light emitting element emits is incident on a side face of
the plate, propagates inside the plate when total reflection conditions are satisfied, and is emitted from a light outgoing
face of the plate which is opposite to the bottom surface when total reflection conditions are made unsatisfied by the dots.

US Pat. No. 9,279,070

ANISOTROPIC CONDUCTIVE ADHESIVE, METHOD OF PRODUCING THE SAME, CONNECTION STRUCTURE AND PRODUCING METHOD THEREOF

DEXERIALS CORPORATION, T...

1. An anisotropic conductive adhesive in a form of a film comprising:
an insulating adhesive composition comprising a thermosetting binder; and
demagnetized magnetic conductive particles dispersed in the insulating adhesive composition, wherein the demagnetized magnetic
conductive particles have an average particle diameter of from 0.5 ?m to 30 ?m, wherein the magnetic conductive particles
are subjected to demagnetization before establishment of an anisotropic conductive connection using the anisotropic conductive
adhesive film, and wherein the demagnetized magnetic conductive particles have a diameter that is less than a thickness of
the film.

US Pat. No. 9,184,609

OVERCURRENT AND OVERVOLTAGE PROTECTING FUSE FOR BATTERY PACK WITH ELECTRODES ON EITHER SIDE OF AN INSULATED SUBSTRATE CONNECTED BY THROUGH-HOLES

Dexerials Corporation, T...

1. A protection element connected onto an electric current path of an electric circuit comprising:
an electrically insulating substrate;
a heating resistor formed on one surface of the electrically insulating substrate with a first electrically insulating layer
interposed therebetween;

a low-melting-point body disposed above the heating resistor with a second electrically insulating layer interposed therebetween
and that constitutes part of the electric current path;

connection portions connected to both ends of the low-melting-point and that electrically connect the electric current path
and the low-melting-point metal body; and

a through hole that penetrates the inside of the electrically insulating substrate,
wherein
the connection portions are formed on both the one surface of the electrically insulating substrate with the third electrically
insulating layer interposed therebetween and the other surface opposing the one surface of the electrically insulating substrate
with a fourth electrically insulating layer interposed therebetween, and

the through hole is formed in a position where the third electrically insulating layer is overlapped with the electrically
insulating layer.

US Pat. No. 9,182,625

DISPLAY, MANUFACTURING METHOD THEREFOR AND TRANSPARENT RESIN CHARGING MATERIAL

Dexerials Corporation, T...

1. A method for producing a display apparatus comprising:
charging a transparent resin filler between a picture image display panel and a front side panel;
curing the transparent resin filler in situ to form a transparent resin layer; and
causing, when foreign matter has been mixed into the transparent resin layer, movement of a re-working member between the
picture image display panel and the front side panel to remove the transparent resin layer;

wherein the transparent resin layer contains
(i) an acrylate material including a polyurethane acrylate or an isobornyl acrylate, and
(ii) a photopolymerization initiator, and
wherein the transparent resin layer has a hardness, expressed as Shore E, of E4/15 to E8/15, with a value not greater than
400 N/cm2 obtained by multiplying the hardness with a bonding strength.

US Pat. No. 9,924,599

ANISOTROPIC CONDUCTIVE FILM, ANISOTROPIC CONDUCTIVE FILM PRODUCTION METHOD, CONNECTING METHOD, AND BONDED STRUCTURE

DEXERIALS CORPORATION, T...

1. An anisotropic conductive film, comprising:
conductive particles,
wherein the anisotropic conductive film is an anisotropic conductive film configured to anisotropic conductively connect a
terminal of a substrate with a terminal of an electronic component,

wherein the conductive particles are (i) conductive particles, in each of which a metal plated layer and an insulating layer
are sequentially provided on a surface of a resin particle, or (ii) conductive particles, in each of which an insulating layer
is provided on a metal particle, or (iii) both the (i) conductive particles and the (ii) conductive particles,

wherein an average particle number of linkage of the conductive particles is 3.0 to 10.0, the linkage of the conductive particles
being a state that the conductive particles are in direct physical contact with each other, and

wherein a particle linking rate of the conductive particles is 8% to 39%.

US Pat. No. 9,202,755

CIRCUIT CONNECTING MATERIAL AND SEMICONDUCTOR DEVICE MANUFACTURING METHOD USING SAME

DEXERIALS CORPORATION, T...

1. A circuit connecting material for bonding a semiconductor chip in which a solder-adhered electrode is formed and a circuit
board on which an opposing electrode opposite to the solder-adhered electrode is formed,
wherein a first adhesive layer to be adhered to the semiconductor chip side, and a second adhesive layer having a lowest melting
viscosity attainment temperature higher than that of the first adhesive layer are laminated, and

when the semiconductor chip on which the circuit connecting material is stuck is mounted on the circuit board, at a temperature
lower than the lowest melting viscosity attainment temperature of the first adhesive layer, a thickness Hb1 of the first adhesive layer is within a range satisfying the following formula (1):

0.5×He1?Hb1?He1+0.75×Hs  formula (1)

where He1 denotes an electrode thickness of the solder-adhered electrode, and Hs denotes a solder thickness of the solder-adhered electrode.

US Pat. No. 9,153,401

PROTECTIVE DEVICE

Dexerials Corporation, T...

1. A protective device for protecting equipment, the protective device comprising:
an insulation base substrate;
a fusible conductor arranged on the insulation base substrate and connected to a power supply path for the equipment so that
the fusible conductor is fused off by a preset abnormal current or voltage;

an insulation cover mounted on the insulation base substrate to overlie the fusible conductor via a preset spacing; and
a flux coated on a surface of the fusible conductor facing the insulation cover and disposed in the spacing,
wherein the fusible conductor is fused off to break a current path when the abnormal voltage is applied to the equipment,
wherein the fusible conductor is secured to a conductor layer and to a pair of electrodes provided on the insulation base
substrate via an electrically conductive paste containing a metal component exhibiting wettability with respect to the fusible
conductor in the fused state,

wherein a melting temperature of the metal component of the electrically conductive paste is lower than a melting temperature
of the fusible conductor, and the electrically conductive paste is spread more outwards on the conductor layer than a rim
of the fusible conductor,

wherein the insulation cover includes ribs for holding the flux at a center of an inner surface of the insulation cover,
wherein the ribs for holding the flux are formed integrally with the insulation cover such that the flux is held at the center
of the inner surface of the insulation cover and the ribs do not contact the insulation base substrate, and

wherein the flux contacts the fusible conductor only at the surface of the fusible conductor facing the insulation cover.

US Pat. No. 9,588,267

OPTICAL ELEMENT AND METHOD FOR PRODUCING THE SAME

DEXERIALS CORPORATION, T...

1. An optical element comprising:
an optical layer having a flat incident surface on which light is incident;
a plurality of beads embedded on one side of the optical layer;
a focusing layer formed over a surface of each bead opposite the optical layer; and
a wavelength-selective reflective layer disposed on the focusing layer opposite each bead; wherein:
? is the angle of light incident on the first surface or reflected light exiting through the first surface with respect to
a normal of the first surface,

? is the angle of a component of the light incident on the first surface or the reflected light projected on the first surface
with respect to a specific line in the first surface, and

of light incident on the first surface at an incident angle (?, ?), the optical element selectively directionally reflects
the light in at least one specific wavelength range in at least one direction other than a specular reflection direction (??,
?+180°) while transmitting light in at least one wavelength range other than the specific wavelength range, and is transparent
to light in at least one wavelength range other than the specific wavelength range.

US Pat. No. 9,308,695

THERMALLY CONDUCTIVE SHEET AND PROCESS FOR PRODUCING SAME

DEXERIALS CORPORATION, T...

1. A method for producing a thermally conductive sheet comprising at least the steps of
extruding a thermally conductive composition containing a polymer, an anisotropic thermally conductive filler and another
filler through an extruder, thereby extrusion molding an extrusion molded product in which the anisotropic thermally conductive
filler is oriented along the extrusion direction;

curing the extrusion molded product to form a cured object; and
cutting the cured object into a given thickness with an ultrasonic cutter, the cutting step being performed so that the anisotropic
thermally conductive filler is oriented with an angle of 5° to 45° relative to the thickness direction of the cured object
to be cut,

wherein the anisotropic thermally conductive filler is prepared as carbon fibers and has an average fiber length of 100 ?m
or more, and

the other filler is prepared as spherical alumina particles and has an average particle size in a range from 1 ?m to 40 ?m.

US Pat. No. 9,253,911

ANISOTROPIC CONDUCTIVE MATERIAL AND METHOD FOR MANUFACTURING SAME

DEXERIALS CORPORATION, T...

1. An anisotropic conductive material, comprising:
sulfide silane modified hydrophobic silica particles having a surface treated by a disulfide silane coupling agent, and
an average particle diameter of the sulfide silane modified hydrophobic silica particles is in the range from 10 nm to 300
nm.

US Pat. No. 9,130,383

CHARGING/DISCHARGING CONTROL DEVICE, BATTERY PACK, ELECTRICAL EQUIPMENT, AND CHARGING/DISCHARGING CONTROL METHOD

DEXERIALS CORPORATION, T...

1. A charging/discharging control device that controls charging/discharging of a battery arranged in a battery pack and obtained
by connecting at least one chargeable/dischargeable battery cell in series, comprising:
first and second switches that are connected in parallel on current paths between the battery and an external terminal of
the battery pack;

a switching control unit that switches between a charging current path and a discharging current path by turning on the first
switch and turning off the second switch during a charging operation and turning off the first switch and turning on the second
switch during a discharging operation;

a first protective element that fuses the charging current path when a current value of the charging current path flowing
through the first switch exceeds a first fusing current value; and

a second protective element that fuses the discharging current path when a current value of the discharging current path flowing
through the second switch exceeds a second fusing current value higher than the first current value.

US Pat. No. 9,515,042

ANISOTROPIC CONDUCTIVE FILM, CONNECTION STRUCTURE AND METHOD OF PRODUCING THE SAME

DEXERIALS CORPORATION, T...

1. An anisotropic conductive film comprising an insulating adhesive composition and conductive particles that are uniformly
dispersed in the insulating adhesive composition, wherein:
the insulating adhesive composition comprises a (meth)acrylate-based monomer composition, a radical polymerization initiator,
and a film-forming resin;

the (meth)acrylate-based monomer composition includes a (meth)acrylate-based monomer having a cyclic ester residue or a cyclic
amide residue; and

the (meth)acrylate-based monomer having a cyclic ester residue is represented by the following constitutional formula (2)
or (3):


where R1 is a hydrogen atom or a methyl group.

US Pat. No. 9,487,678

ANISOTROPIC CONDUCTIVE ADHESIVE, LIGHT EMITTING DEVICE, AND METHOD FOR PRODUCING ANISOTROPIC CONDUCTIVE ADHESIVE

DEXERIALS CORPORATION, T...

1. An anisotropic conductive adhesive for electrically connecting an electrode substrate to an LED element having a peak which
is a maximum intensity of emitted light, positioned within a range of a wavelength at least 360 nm and at most 500 nm, by
adhering electrodes of the LED element to electrodes of the electrode substrate, the anisotropic conductive adhesive comprising:
conductive particles; and
an adhesive binder,
wherein each of the conductive particles includes
a resin particle,
a base layer formed on a surface of the resin particle by electrolytic plating method, and
a conductive light reflecting layer formed on a surface of the base layer by sputtering method, the conductive light reflecting
layer including Ag, Bi, and Nd, and

wherein the light reflecting layer is formed by sputtering of a sputtering target which contains Ag, Bi, and Nd having a content
ratio of Bi set to at least 0.1 weight % and at most 3.0 weight % and a content ratio of Nd set to at least 0.1 weight % and
at most 2.0 weight % with respect to a total weight of Ag, Bi, and Nd of 100 weight %.

US Pat. No. 9,365,754

HEAT-CURING RESIN COMPOSITION, HEAT-CURING ADHESIVE SHEET, AND METHOD FOR PRODUCING HEAT-CURING ADHESIVE SHEET

DEXERIALS CORPORATION, T...

1. A heat-curing resin composition for producing a heat-curing adhesive sheet on a base film, comprising:
an acrylic copolymer containing an epoxy group-containing (meth)acrylic ester monomer;
an organic solvent;
an epoxy resin; and
a curing agent comprising organic acid dihydrazide for said epoxy resin,
wherein 3 to 12% of the epoxy groups of the acrylic copolymer are cross-linked by a liquid polyamine or a liquid polyamidoamine
before forming as a heat-curing adhesive sheet, each having at least a primary amino group or a secondary amino group, and

wherein an amount of the epoxy resin used is 5 to 30 parts by mass with respect to 100 parts by mass of the acrylic copolymer.

US Pat. No. 9,097,857

POLARIZING PLATE AND METHOD FOR PRODUCING POLARIZING PLATE

DEXERIALS CORPORATION, T...

1. A polarizing plate in which a substrate has a grid, a non-formation region where the grid is not formed, and
a protective film protecting the grid is formed on an entire surface of the grid and is formed also on the non-formation region,
wherein the non-formation region is formed on an entire perimeter of the substrate or only on sides orthogonal to a longitudinal
direction of the grid.

US Pat. No. 9,229,143

INORGANIC POLARIZING PLATE CONTAINING FESI FINE PARTICLES

DEXERIALS CORPORATION, T...

1. An inorganic polarizing plate comprising:
a substrate that is transparent to light in a used bandwidth;
a reflective layer that is composed of grids that are formed on one surface of the substrate with a pitch that is smaller
than a wavelength of light in the used bandwidth;

a dielectric layer that is stacked on the reflective layer; and
an absorbing layer containing FeSi fine particles that is stacked on the dielectric layer;
wherein an amount of Fe in the FeSi is in a range of from 1 mol % to 5 mol %.

US Pat. No. 9,190,381

CONNECTION METHOD, CONNECTION STRUCTURE, INSULATING ADHESIVE MEMBER, ELECTRONIC COMPONENT HAVING ADHESIVE MEMBER, AND METHOD FOR MANUFACTURING SAME

DEXERIALS CORPORATION, T...

1. A connection method for connecting a side of a substrate on which an electrode is formed and a side of an electronic component
on which an electrode is formed via an insulating adhesive member,
wherein the insulating adhesive member is formed by laminating a first insulating adhesive layer which contains a filler in
an insulating adhesive composition and a second insulating adhesive layer which contains no filler in an insulating adhesive
composition,

wherein H/2 of the first insulating adhesive layer, and Tn is the second insulating adhesive layer, and

wherein the side of the substrate on which an electrode is formed and the side of the electronic component on which an electrode
is formed are connected via the insulating adhesive member arranged such that the first insulating adhesive layer and the
side of the electronic component on which an electrode is formed are opposed to thereby connect the electrode of the substrate
and the electrode of the electronic component.

US Pat. No. 9,053,862

VARIABLE CAPACITANCE DEVICE WITH A PLURALITY OF ELECTRODES LAMINATED VIA DIELECTRIC LAYERS

DEXERIALS CORPORATION, T...

1. A variable capacitance device comprising:
a device body comprising:
a plurality of dielectric layers formed by a dielectric material changing in capacitance according to a control signal applied
externally and laminated in a predetermined direction, wherein the dielectric layers have a length that extends along a longitudinal
direction; and

an internal electrode section including at least one internal electrode formed in each of both surfaces of each dielectric
layer, wherein the at least one internal electrode comprises a first internal electrode having its length aligned in a lateral
direction, wherein a second internal electrode whose a length is aligned with the longitudinal direction so that the first
and second internal electrodes have areas of non-overlapping surface areas, and wherein the lateral direction is different
from the longitudinal direction,

three or more capacitors being formed by said plurality of dielectric layers and said internal electrode section, and the
three or more capacitors being connected in series with each other; and

at least three control terminals supplied with said control signal, and respectively arranged for at least three said internal
electrodes forming at least two capacitors of said three or more capacitors, wherein the at least three control terminals
are connected to the three or more capacitors that are connected in series with each other.

US Pat. No. 9,180,635

OPTICAL ELEMENT, METHOD OF MANUFACTURING OPTICAL ELEMENT, ILLUMINATION DEVICE, WINDOW MEMBER, AND FITTING

DEXERIALS CORPORATION, T...

1. A method of manufacturing an optical element, the method comprising:
transferring a concave-convex shape formed in a master to a transfer material, thereby forming a first light transmissive
layer that has a plurality of reflecting surfaces in a transfer surface thereof;

forming a plurality of elongated gaps into either of opposed first and second surfaces of a second light transmissive layer;
and

joining the first light transmissive layer to the second light transmissive layer,
wherein the plurality of reflecting surfaces of the first light transmissive layer are arrayed along the elongated gaps in
the second light transmissive layer, and

wherein the reflecting surfaces have a first length in a depth direction of the concave-convex shape of the transfer surface
and are arrayed at a pitch in a second direction perpendicular to the depth direction of the concave-convex shape,

light incident on one principal surface of one of the first light transmissive layer and the second light transmissive layer
is reflected by the reflecting surfaces toward one principal surface of the other layer, and

following formulae (1) and (9) are satisfied:
(where d is the first length, n is a number of total reflections of the incident light at the same reflecting surface, p is
an array pitch of the reflecting surfaces, ? is an angle formed between a projection of the light impinging on the reflecting
surface to a surface including the first and second directions and a tangential line at an arbitrary point on the reflecting
surface (6.5°???87.5°, N is a set of natural numbers, np is a refractive index of the first light transmissive layer, nair is a refractive index of air, ? is an incidence angle of the light incident on the optical element, and ? is an angle formed
in the surface including the first and second directions between a tangential line at an arbitrary point on the reflecting
surface and the first direction).

US Pat. No. 9,980,375

CONNECTION BODY, METHOD FOR MANUFACTURING A CONNECTING BODY AND INSPECTION METHOD THEREOF

DEXERIALS CORPORATION, T...

1. A connection body comprising:a transparent substrate; and
an electronic component connected to the transparent substrate via an anisotropic conductive adhesive;
wherein the transparent substrate has terminals on which a plurality of indentations caused by conductive particles contained in the anisotropic conductive adhesive are arranged in an in-plane direction of the terminals, and
wherein the indentations clearly appear and are visually distinguishable from peripheral portions.

US Pat. No. 9,599,847

RESIN COMPOSITION AND DISPLAY UNIT

DEXERIALS CORPORATION, T...

1. A method of producing an image display unit comprising an image display part, a transparent protective part arranged on
the image display part, and a cured resin layer arranged between the image display part and the protective part, the method
comprising:
a step of completely filling a gap between the image display part and the transparent protective part with a resin composition
including a photo polymerization initiator that can cure in the visible and ultraviolet ranges, and

a step of forming the cured resin layer by irradiating the resin composition with ultraviolet rays from the protective part;
wherein the cured resin layer has:
(a) a cure ratio of 90% or more;
(b) a cure shrinkage in a range of from 0 to 2% and a storage modulus at 25° C. of 4.0×103 to 1.0×106, where these cure shrinkage and storage modulus values are achieved while the cure ratio becomes 90% or more so as to suppress
effects of an internal stress that builds up within the resin composition as the resin composition cures and can be approximated
by the product of the storage modulus and the cure shrinkage of the cured resin; and

(c) a transmittance of 90% or more in the visible range.

US Pat. No. 9,340,710

LIGHT-REFLECTIVE CONDUCTIVE PARTICLE, ANISOTROPIC CONDUCTIVE ADHESIVE AND LIGHT-EMITTING DEVICE

DEXERIALS CORPORATION, T...

1. A light-reflective conductive particle for an anisotropic conductive adhesive used for anisotropic conductive connection
of a light-emitting element to a wiring board, comprising a core particle coated with a metal material and a light-reflecting
layer formed from light-reflective inorganic particles having a refractive index of 1.52 or more on a surface of the core
particle, wherein the light-reflecting layer contains a thermoplastic resin.

US Pat. No. 9,069,129

OPTICAL BODY, OPTICAL BODY MANUFACTURING METHOD, SOLAR SHADING MEMBER, WINDOW MEMBER, INTERIOR MEMBER, AND FITTING

DEXERIALS CORPORATION, T...

19. An optical body manufacturing method comprising:
transferring a concave-convex shape of a mold or a die to a first resin material, thereby forming a first optical layer which
includes a plurality of convex or concave structures formed on or in one principal surface thereof and arrayed in a substantially
cyclic structure pattern at a predetermined pitch;

forming a reflecting layer on the concave-convex surface that has been transferred to the first optical layer; and
embedding the reflecting layer with a second resin material, thereby forming a second optical layer having an incident surface
on which light is incident, the second optical layer being transparent and having a refractive index of 1.1 or more and 1.9
or less,

wherein at least one of the first and second optical layer is made of a resin that contains a phosphoric compound, and the
reflecting layer contains an oxide, a nitride, or an oxynitride in its surface contacting with the first optical layer or
the second optical layer that contains the phosphoric compound,

ridges of the convex structures or ridges between the concave structures adjacent to each other have tip portions projecting
toward the incident surface side,

the ridges have a triangular cross-section other than at the tip portions, each tip portion has a deformation defined as a
radius of a larger of two circles that:

intersect an end of the tip portion,
are on opposite sides of the tip portion, and
intersect at a single point with each of two sides a triangle formed by the triangular cross-section of a portion of the ridge
outside the tip portion,

the deformation of each tip portion is 7% or less of the array pitch of the structures,
the optical body selectively directionally reflects part of light entering the incident surface at an incident angle (?, ?)
(where ? is an angle formed by a line perpendicular to the incident surface and incident light entering the incident surface
or light reflected by the incident surface, and ? is an angle formed between a specific line in the incident surface and a
component obtained by projecting the incident light or the reflected light to the incident surface), which part is in a specific
wavelength band, in a direction other than (??, ?+180°).

US Pat. No. 9,536,804

METHOD OF MANUFACTURING HEAT CONDUCTIVE SHEET

Dexerials Corporation, S...

1. A method of manufacturing a heat conductive sheet, comprising the steps of:
molding a heat conductive resin composition, which includes heat conductive fillers and a binder resin, into a predetermined
shape and curing the heat conductive resin composition to obtain a molded product of the heat conductive resin composition
which is a cuboid having a cross section with a vertical dimension of 0.5 to 15 cm and a horizontal dimension of 0.5 to 15
cm;

cutting the molded product into sheets to obtain at least one molded product sheet; and
leaving the molded product sheet standing for 30 minutes or longer to coat an entire surface of the sheet main body with an
uncured component of the binder resin oozing from the sheet main body.

US Pat. No. 9,260,634

LIGHT-REFLECTIVE ANISOTROPIC CONDUCTIVE ADHESIVE AGENT, AND LIGHT EMITTING DEVICE

Dexerials Corporation, T...

1. A light-reflective anisotropic conductive adhesive to be used for anisotropic conductive connection of a light-emitting
element to a wiring board, the adhesive comprising:
a thermosetting resin;
conductive particles comprising a core particle coated with a metal particle or a metal material, and a light reflective layer
formed on a surface of the core particle, wherein the light reflective layer comprises inorganic particles selected from any
one of titanium oxide particles, zinc oxide particles or aluminum oxide particles until the entire conductive particle appears
a color in a range from white to gray; and

light-reflective acicular insulating particles.

US Pat. No. 9,496,598

WIRELESS COMMUNICATION SYSTEM, ANTENNA MODULE AND ELECTRONIC DEVICE

DEXERIALS CORPORATION, T...

1. A wireless communication system, comprising:
a first antenna module including a first antenna coil; and
a second antenna module including a second antenna coil and capable of communication by receiving a magnetic field transmitted
from the first antenna module,

wherein the first antenna coil and the second antenna coil have mutually different outside diameters, and
wherein, out of the first and second antenna coils, an antenna coil having a larger outside diameter is formed in such a way
that an area of an opening portion inside an innermost perimeter of an antenna pattern is not more than 120% of an outside
diameter area of another antenna coil having a smaller outside diameter.

US Pat. No. 9,477,024

POLARIZING ELEMENT, PROJECTOR AND METHOD OF MANUFACTURING POLARIZING ELEMENT

DEXERIALS CORPORATION, T...

1. A polarizing element comprising:
a transparent substrate;
a reflective layer constituting, on the transparent substrate, grid-shaped convexities arrayed at a pitch smaller than a wavelength
in a used optical bandwidth;

a dielectric layer formed on the reflective layer;
a diffusion barrier layer formed on the dielectric layer; and
an absorbing layer formed on the diffusion barrier layer such that the diffusion barrier layer is sandwiched between the absorbing
layer and the dielectric layer, wherein

the diffusion barrier layer is formed of a material selected from the group consisting of Ta, W, Nb and Ti.
US Pat. No. 9,181,476

GREEN-EMITTING PHOSPHOR PARTICLES, METHOD FOR MANUFACTURING GREEN-EMITTING PHOSPHOR PARTICLES, COLOR CONVERSION SHEET, LIGHT-EMITTING DEVICE, AND IMAGE DISPLAY DEVICE ASSEMBLY

DEXERIALS CORPORATION, T...

1. A method for manufacturing green-emitting phosphor particles comprising the steps of:
producing a (Sr,Eu)SO3 powder containing europium and strontium from a solution containing a europium compound, a strontium compound, and a sulfur
compound;

mixing the resulting powder and a powdered gallium compound; and
performing firing,
wherein the green-emitting phosphor articles comprise Sr1-xGa2S4:Eux (where 0.10?x?0.20) and

the value of (internal quantum efficiency/absorption efficiency) is 0.7 or more.

US Pat. No. 9,524,949

SEMICONDUCTOR DEVICE HAVING SEMICONDUCTOR CHIP AFFIXED TO SUBSTRATE VIA INSULATING RESIN ADHESIVE FILM

Dexerials Corporation, S...

1. A semiconductor device comprising:
a semiconductor chip provided with a plurality of bumps arranged in a peripheral alignment;
a substrate provided with a plurality of electrodes; and
an insulating resin adhesive film;
wherein:
the semiconductor chip is affixed to the substrate via the insulating resin adhesive film such that the electrodes are in
positions corresponding to the positions of the bumps,

the insulating resin adhesive film has a minimum melt viscosity of 8×103 to 1×105 Pa·s,

the insulating resin adhesive film covers 70 to 90% the area of the region enclosed with the plurality of bumps of the semiconductor
chip arranged in the peripheral alignment,

the bumps and the electrodes corresponding thereto are arranged so that they are opposed to each other and establish metallic
contact therebetween, and

the insulating resin adhesive film is heat cured, and a periphery thereof is defined between the plurality of bumps arranged
in the peripheral alignment and the outer edge of the semiconductor chip, exclusive.

US Pat. No. 9,580,524

VINYLCYCLOPROPANE, MONOMER COMPOSITION, POLYMER, POLYMER COMPOSITION, AND ARTICLE

Dexerials Corporation, S...

1. A vinylcyclopropane represented by general formula (I) shown below
where, in general formula (I):
R1 represents —H, —OH, —NH2, —NO2, —COOR, —CN, ?O, —OCOCH?CH2, —OCO(CH3)C?CH2, a halogen, an alkylene group having a carbon number of 1-20, a cycloalkylene group having a carbon number of 3-20, an arylene
group having a carbon number of 6-14, or any one of an alkylene group having a carbon number of 1-20, a cycloalkylene group
having a carbon number of 3-20, or an arylene group having a carbon number of 6-14 interrupted by O, S, N, or NH;

X1 represents CO, CO—O, O—CO, CO—S, S—CO, CO—NR, NR—CO, O, S, SO2, or a single bond;

X2 represents CO, CO—O, O—CO, CO—S, S—CO, CO—NR, NR—CO, O, S, SO2, or a single bond;

for R1, X1, and X2, R represents H, an alkyl group having a carbon number of 1-6, a cycloalkylene group having a carbon number of 3-6, an aryl
group having a carbon number of 6-14, or a heterocyclic group having a carbon number of 6-14;

k represents an integer of 2-4;
l represents an integer of 1-9;
m represents an integer of 1-8; and
Ad represents an adamantyl group.

US Pat. No. 9,493,701

RED PHOSPHOR, METHOD FOR PRODUCING RED PHOSPHOR, WHITE LIGHT SOURCE, ILLUMINATING DEVICE, AND LIQUID CRYSTAL DISPLAY DEVICE

Dexerials Corporation, T...

1. A method for producing a red phosphor comprising:
mixing a carbonate of an element A, europium nitride, silicon nitride and melamine to form a mixture so that the element A,
europium (Eu), silicon (Si) and carbon (C) have the ratios of the numbers of atoms according to the compositional formula
(1):

[Chemical Formula 2]
[A(m-x)Eux][Si(9-y)Cy]OnN[12-2(n-m)/3]   compositional formula (1)

 where the element A is at least one of magnesium (Mg), calcium (Ca), strontium (Sr) and barium (Ba), and where m, x, y and
n in the compositional formula (1) satisfy the relationships of 3
sintering the mixture to a sintered product; and
pulverizing the sintered product,
wherein the ratio of the intensity of a peak existing at a position of the diffraction angle of 36.0° to 36.6° to that at
a position of the diffraction angle of 35.0° to 36.0° in an X-ray diffraction pattern is 0.58 or higher.

US Pat. No. 9,577,158

PHOSPHOR SHEET-FORMING RESIN COMPOSITION

DEXERIALS CORPORATION, T...

1. A phosphor sheet-forming resin composition comprising a film-forming resin composition and a powdery phosphor that emits
fluorescence when irradiated with excitation light, wherein
the film-forming resin composition contains a hydrogenated styrene-based copolymer,
the phosphor contains a sulfide-based phosphor, and
the hydrogenation ratio is 50% or higher in the hydrogenated styrene-based copolymer.
US Pat. No. 9,957,411

UNDERFILL MATERIAL AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE USING THE SAME

DEXERIALS CORPORATION, T...

1. An underfill material to be pre-applied to a semiconductor chip having a solder-tipped electrode formed thereon before the semiconductor chip is mounted on an electronic component having a counter electrode facing the solder-tipped electrode, the underfill material containing a phenoxy resin, a dicyclopentadiene epoxy resin, an acid anhydride curing agent, an imidazole, a bifunctional (meth)acrylate having a cyclodecane skeleton, an organic peroxide, and a silica blend, the underfill material being in the form of a film, whereina ratio of a total mass of the dicyclopentadiene epoxy resin and the acid anhydride curing agent to a total mass of the bifunctional (meth)acrylate and organic peroxide is in a range of 7:3 to 4:6,
a minimum melt viscosity attainment temperature and a minimum melt viscosity obtained when melt viscosity of the underfill material is measured at all temperature increase rate conditions within the range of 5 to 50° C./min are in a range of 100 to 150° C. and in a range of 100 to 5000 Pa·s, respectively, and
a minimum melt viscosity attainment temperature and a minimum melt viscosity obtained when melt viscosity of the underfill material is measured under a temperature increase rate condition of 10° C./min are in a range of 100 to 110° C. and in a range of 100 to 5000 Pa·s, respectively.

US Pat. No. 9,540,563

COATED PHOSPHOR AND METHOD FOR PRODUCING COATED PHOSPHOR

Dexerials Corporation, T...

1. A coated phosphor, comprising:
a sulfide phosphor coated with silicon dioxide film,
wherein the silicon dioxide film comprises a zinc oxide powder having a particle diameter of 0.2 ?m or less, and
wherein the silicon dioxide has a thickness between 50 to 150 nm.

US Pat. No. 9,487,679

ACRYLIC ADHESIVE TAPE AND METHOD OF PRODUCING THE SAME

DEXERIALS CORPORATION, T...

1. A method of producing an acrylic adhesive tape including a release film substrate and an acrylic adhesive layer formed
thereon, the method comprising the following steps (a) to (d):
step (a) of irradiating a solvent-free photo-polymerizable monomer composition containing an acrylic monomer and a photopolymerization
initiator with ultraviolet rays to produce an acrylic polymer A from the acrylic monomer by photopolymerization, the acrylic
polymer A having a weight average molecular weight of 700,000 to 3,000,000 when a cross-linking agent is absent, to thereby
prepare a polymer syrup containing the acrylic polymer A and an unreacted portion of the acrylic monomer;

after preparing the polymer syrup in step (a), step (b) of mixing an adhesion-imparting polymer having a weight average molecular
weight of 2,000 to 10,000 with the polymer syrup to prepare an adhesive coating solution,

after preparing the adhesive coating solution in step (b), step (c) of applying the adhesive coating solution to the release
film substrate to form an adhesive coating film; and

after forming the adhesive coating film in step (c), step (d) of irradiating the adhesive coating film with ultraviolet rays
to produce an acrylic polymer B from the unreacted portion of the acrylic monomer in the adhesive coating film by photopolymerization,
the acrylic polymer B having a weight average molecular weight of 350,000 to 650,000 when a cross-linking agent is absent,
to thereby form an acrylic adhesive layer having a molecular weight distribution of 2.4 to 4.4.

US Pat. No. 9,781,236

ELECTRONIC APPARATUS

DEXERIALS CORPORATION, S...

1. An electronic apparatus comprising:
an antenna device incorporated into the electronic apparatus and configured to communicate with an external device via an
electromagnetic field signal, the antenna device comprising a loop coil wound in a planar shape and a magnetic sheet formed
from a magnetic material and overlapping at least a portion of the loop coil,

wherein the loop coil includes a bend, and from a position of the bend, a plane that includes one side of the loop coil on
which current flows in one direction is disposed alongside a lateral face of an internal structure disposed inside a casing,
and a plane that includes another side of the loop coil on which current flows in the opposite direction than on the one side
is disposed to overlap the magnetic sheet, and

wherein the magnetic sheet is disposed at a position farther from the external device than the another side of the loop coil
is,

of the one side and the another side of the loop coil, only the one side of the loop coil is disposed near to and is disposed
so as to face the lateral face of the internal structure, and

the another side of the loop coil is extended from the position of the bend away from the internal structure.

US Pat. No. 10,038,124

LIGHT-EMITTING DEVICE AND METHOD FOR PRODUCING LIGHT-EMITTING DEVICE

Dexerials Corporation, S...

1. A light-emitting device comprising:a substrate;
a solid-state light-emitting element mounted on the substrate;
a circular tube-shaped member positioned on the substrate such as to surround the solid-state light-emitting element; and
a transparent resin portion including a cylindrical section that encloses the solid-state light-emitting element and that is in contact with an inner surface of the circular tube-shaped member, and a dome-shaped section that is positioned above the cylindrical section, wherein
the inner surface of the circular tube-shaped member is water repellent, and
the cylindrical section and the dome-shaped section contain a phosphor that is excited by light of a light-emission wavelength of the solid-state light-emitting element, and
among the phosphor contained in the transparent resin portion, a portion of the phosphor that is closest to the substrate is at a position at least 500 ?m higher than an upper edge of the solid-state light-emitting element and lower than an upper edge of the circular tube-shaped member.

US Pat. No. 9,627,128

ANTENNA MODULE, COMMUNICATION DEVICE AND METHOD OF MANUFACTURING ANTENNA MODULE

DEXERIALS CORPORATION, T...

1. An antenna module that is incorporated in an electronic device and becomes communicable in response to a magnetic field
transmitted from a transmitter, the antenna module comprising:
an antenna coil that is arranged on an outer peripheral part of a housing surface and is configured to face the transmitter
and electromagnetically couple to the transmitter; and

a magnetic sheet configured to attract a magnetic field transmitted from the transmitter to the antenna coil, the magnetic
sheet being superimposed with the antenna coil in a direction orthogonal to the housing surface such that the magnetic sheet
is between the antenna coil and the housing surface on an outer peripheral side and the antenna coil is between the magnetic
sheet and the housing surface on a center side;

the antenna coil including:
a first coil having a first conductive line arranged between the magnetic sheet and the housing surface; and
a second coil having a second conductive line arranged such that the magnetic sheet is between the second conductive line
and the housing surface,

the first and second coils being connected in one of a series connection and a parallel connection,
the first and second coils being superimposed in the direction orthogonal to the housing surface such that approximately half
or less of areas of the first and second coils are superimposed and portions of each of the first and second conductive lines
are superimposed.

US Pat. No. 9,948,146

VARIABLE CAPACITANCE CIRCUIT, VARIABLE CAPACITANCE DEVICE, RESONANT CIRCUIT, AMPLIFYING CIRCUIT, AND ELECTRONIC APPARATUS

Dexerials Corporation, S...

1. A variable capacitance circuit, comprising:a first variable capacitance element having a first combined capacitance value;
a second variable capacitance element having a second combined capacitance value;
a first to a third alternate current terminal through which alternate current signals are inputted and outputted to and from the first and the second variable capacitance element; and
a first to a third direct current terminal connected to the first and the second variable capacitance element so that direct current voltages are applied to the first and the second variable capacitance element, wherein
the first and the second variable capacitance element are connected in series between the first alternate current terminal and the third alternate current terminal,
the second alternate current terminal is connected to a series connection node between the first variable capacitance element and the second variable capacitance element,
the first variable capacitance element includes at least a first variable capacitance capacitor and a second variable capacitance capacitor connected in series,
the second variable capacitance element includes at least a third variable capacitance capacitor and a fourth variable capacitance capacitor connected in series,
the first direct current terminal connects to a connection node between the first variable capacitance capacitor and the second variable capacitance capacitor,
the second direct current terminal connects to the first alternate current terminal, a connection node between the first variable capacitance element and the second variable capacitance element, and the third alternate current terminal,
the third direct current terminal connects a connection node between the third variable capacitance capacitor and the fourth variable capacitance capacitor,
the first combined capacitance value changes in response to direct current voltages applied to the first and the second direct current terminal,
the second combined capacitance value changes in response to direct current voltages applied to the second and the third direct current terminal, and
the change in the first combined capacitance value and the change in the second combined capacitance value are opposite in direction.

US Pat. No. 9,850,427

PHOSPHOR SHEET

DEXERIALS CORPORATION, T...

1. A phosphor sheet, comprising:
a phosphor layer;
wherein the phosphor layer includes
a sheet-shaped resin, and
a coated sulfide phosphor particle obtained by coating a sulfide phosphor particle made particles of a sulfide fluorescent
substance with a silicon dioxide film, the silicon dioxide film containing powders of a sulfur-atom containing gas adsorbent
made of a metal oxide;

wherein the sheet-shaped resin contains powders of the coated sulfide phosphor particle, and
the coated sulfide phosphor particle emits light when irradiated with excitation light.
US Pat. No. 9,611,157

PLANT-DERIVED FLOCCULANT, FLOCCULANT MIXTURE, METHOD OF FLOCCULATION, AND METHOD FOR PREPARING PLANT-DERIVED FLOCCULANT

SONY CORPORATION, Tokyo ...

11. A flocculation method comprising the steps of:
adding to a suspension a plant-derived flocculant having a colloid equivalent of ?1.5 mEq/g to ?0.20 mEq/g, whose 2 weight
% aqueous solution has a viscosity of at least 6.0×10?3Pa·s, wherein the plant-derived flocculant is partially soluble in water and comprises at least one dried, pulverized plant
material selected from Begonia, bananas, and Corchorus capsularis; and

flocculating microparticles in the suspension and isolating flocculated materials.

US Pat. No. 9,926,508

IONIC LIQUID, LUBRICANT, AND MAGNETIC RECORDING MEDIUM

DEXERIALS CORPORATION, T...

1. A lubricant comprising:an ionic liquid, which includes a conjugate acid (B+) and a conjugate base (X?), and is protic,
wherein the ionic liquid is represented by any one of the following general formulae (2) to (4), and
wherein the conjugate base is represented by the following general formula (1):

where, in the general formulae (2) to (4), X? is the conjugate base represented by the general formula (1),
where three of R1, R2, R3, and R4 is a hydrogen atom, and other one of R1, R2, R3, and R4 is a group including a straight-chain hydrocarbon group having 10 or more carbon atoms in the general formula (2),
where R1 is a group including a straight-chain hydrocarbon group having 10 or more carbon atoms, and n is 0 or 1 in the general formula (3), and
where R1 is a group including a straight-chain hydrocarbon group haying 10 or more carbon atoms in the general formula (4)

where n is an integer of from 0 to 6 in the general formula (1).

US Pat. No. 9,922,901

HEAT CONDUCTION SHEET, HEAT CONDUCTION SHEET MANUFACTURE METHOD, HEAT RADIATION MEMBER, AND SEMICONDUCTOR DEVICE

DEXERIALS CORPORATION, T...

1. A thermally conductive sheet comprising
a sheet body that is a cured product of a thermally conductive resin composition including a binder resin and carbon fibers
covered with insulating coating films,

wherein the carbon fibers exposed on a surface of the sheet body are not covered with the insulating coating films and are
covered with a component of the binder resin.

US Pat. No. 10,008,356

PROTECTION ELEMENT

DEXERIALS CORPORATION, T...

1. A protection element, comprising:an insulating substrate;
a heating body laminated on the insulating substrate;
an insulating member laminated on the insulating substrate so as to cover at least the heating body;
first and second electrodes laminated on the insulating substrate having the insulating member laminated thereon;
a heating body extraction electrode electrically connected to said heating body on a current path between the first and second electrodes; and
a fusible conductor laminated on the heating body extraction electrode over a range from the heating body extraction electrode to the first and second electrodes and fusing the current path between the first and second electrodes by heating, the fusible conductor having a first part that is in direct contact with the heating body extraction electrode and is separated from the insulating member by the heating body extraction electrode, and a second part that is not in contact with the heating body extraction electrode and is separated from the insulating member by a gap formed between the fusible conductor and the insulating member,
wherein the insulating member is laminated only on the insulating substrate and the heating body, but is not laminated on the first and second electrodes, the fusible conductor comprises a layered body including at least a high melting point metal layer and a low melting point metal layer, and wherein the low melting point metal layer is melted by a heat generated by the heating body, whereby, while eroding the high melting point metal layer, the low melting point metal layer is drawn close to sides of the first and second electrodes and the heating body extraction electrode, and fused, said first and second electrodes and said heating body extraction electrode each having high wettability for the low melting point metal.

US Pat. No. 9,748,636

ANTENNA DEVICE AND ELECTRONIC APPARATUS

DEXERIALS CORPORATION, T...

1. An antenna device incorporated into an electronic apparatus and configured to communicate with an external device via an
electromagnetic field signal, the antenna device comprising:
a first electric conductor provided inside a casing of the electronic apparatus and facing the external device;
an antenna coil provided inside the casing of the electronic apparatus and inductively coupled to the external device; and
a second electric conductor in sheet form, the second electric conductor being provided inside the casing of the electronic
apparatus, overlapping or being in contact with the first electric conductor, and at least partially overlapping a surface
of the antenna coil, the surface being opposite to a surface facing the external device, and the first electric conductor
overlapping the surface of the antenna coil,

wherein the second electric conductor overlaps one side of the antenna coil, the one side having a lead wire wound around
thereon in one direction, and does not overlap another side of the antenna coil, the another side having the lead wire wound
around thereon in another direction, and

wherein the number of turns of the antenna coil on the one side overlapped by the second electric conductor is smaller than
the number of turns of the antenna coil on the another side not overlapped by the second electric conductor.

US Pat. No. 9,759,840

OPTICAL ELEMENT AND METHOD FOR MANUFACTURING OPTICAL ELEMENT

DEXERIALS CORPORATION, T...

1. An optical element with an antireflection function, the optical element comprising:
a substrate having a surface;
a plurality of elongate structures formed from convex portions or concave portions, arranged in large numbers on the surface
of the substrate with a minute pitch less than or equal to a wavelength of the visible light, and arranged in offset tracks,
each track extending in a first direction corresponding to a direction of elongation of the elongate structures; and

a surface-treated layer disposed on the elongate structures, the surface-treated layer including a compound containing a silicon-based
compound and a fluorine-containing compound,

wherein elongate structures in adjacent tracks form lines that extend in a second direction transverse to the first direction,
each of the elongate structures has a first height at a cross-section in the first direction and a second height at a cross-section
in the second direction,

the first height is less than the second height,
the modulus of elasticity of the material forming the elongate structures is 1 MPa or more, and 1,200 MPa or less,
an aspect ratio of the elongate structures is 0.6 or more, and 1.5 or less, and
a filling factor of the elongate structures is 65% or more.

US Pat. No. 9,718,264

METHOD OF MANUFACTURING IMAGE DISPLAY APPARATUS

DEXERIALS CORPORATION, T...

1. A method of manufacturing an image display apparatus wherein an image display member and a light-transmissive cover member
having a light shielding layer formed around an outer edge of the cover member are laminated to each other via a light-transmissive
cured resin layer formed from a liquid photocurable resin composition such that a surface of the light-transmissive cover
member on which the light shielding layer is formed is arranged on a side of the image display member, the manufacturing method
comprising the following steps (A) to (C):

coating the surface of the light-transmissive cover member on which the light shielding layer is formed with the liquid photocurable
resin composition in a thickness thicker than that of the light shielding layer so that a step formed by the light shielding
layer and the surface of the light-transmissive cover member on which the light shielding layer is formed is canceled;


after Step (A), irradiating UV rays to the coated photocurable resin composition for curing to form a light-transmissive cured
resin layer; and


after Step (B), bonding the light-transmissive cover member with the image display member such that the light shielding layer
and the light-transmissive cured resin layer are located between the light-transmissive cover member and the image display
member,

wherein in the step (A), the liquid photocurable resin composition is coated in a thickness 1.2 to 50 times a thickness of
the light shielding layer,

wherein the liquid photocurable resin composition comprises a (meth)acrylate-based oligomer, a polymerized material and a
photopolymerization initiator,

wherein the (meth)acrylate-based oligomer comprises at least one selected from the group consisting of polyisoprene, polybutadiene
and polyurethane as a backbone, and

wherein the polymerized material is made of a radical photopolymerizable poly(meth)acrylate different than the (meth)acrylate-based
oligomer.

US Pat. No. 9,687,833

METHOD OF PRODUCING OPTICALLY ACTIVE COMPOUND

DEXERIALS CORPORATION, T...

1. An optically active compound production method using a column reactor prepared by charging a column for the column reactor
with asymmetric catalyst particles, wherein
the asymmetric catalyst particles have an average particle diameter of 1 to 10 ?m as measured by a flow type particle image
analysis method and are resin particles prepared from a monomer composition containing a monomer having a chiral source, and

a reaction compound is introduced into the column reactor to bring the reaction compound into contact with the asymmetric
catalyst particles, whereby the reaction compound is converted to an optically active compound.

US Pat. No. 9,651,807

METHOD OF PRODUCING IMAGE DISPLAY DEVICE AND RESIN DISPENSER

DEXERIALS CORPORATION, T...

1. A method of producing an image display device in which an image display member and a light-transmitting cover member having
a principal surface portion and a circumferential edge portion on which a light-shielding layer is formed with a step portion
formed between the principal surface portion and the circumferential edge portion are laminated through a light-transmitting
resin layer formed from a liquid photocurable optical resin composition so that a light-shielding layer-formed surface of
the light-transmitting cover member is arranged to face the image display member, the method comprising:
moving a resin dispenser from one end of the light-shielding layer-formed surface of the light-transmitting cover member toward
the other end thereof to apply the optical resin composition to the light-shielding layer-formed surface of the light-transmitting
cover member, and then pre-curing the optical resin composition by irradiating the optical resin composition with ultraviolet
rays so that a curing rate of 10 to 80% is achieved to form a pre-cured resin layer having a surface of which tackiness is
adjusted to 30 N/mm2 or more as determined by a probe tack method;

laminating the pre-cured resin layer formed on the light-shielding layer-formed surface of the light-transmitting cover member
to the image display member; and

curing the pre-cured resin layer held between the image display member and the light-transmitting cover member by irradiating
the pre-cured resin layer with ultraviolet rays through the light-transmitting cover member,

wherein the resin dispenser changes an amount of the optical resin composition applied on the light-shielding layer and on
the principal surface portion of the light-shielding layer-formed surface of the light-transmitting cover member.

US Pat. No. 9,663,714

PHOSPHOR AND METHOD FOR MANUFACTURING THE SAME, AND LIGHT-EMITTING DEVICE AND DISPLAY DEVICE USING PHOSPHOR

DEXERIALS CORPORATION, T...

1. A method for manufacturing a phosphor including (Sr1?x, Bax)3SiO5 as a base material and europium (Eu) as an activator, comprising:
preparing a mixture of compounds respectively including Sr, Ba, Si, and Eu such that a molar ratio of Sr, Ba, and Si is Sr:Ba:Si=3(1?x):3x:1
where 0.5?x?0.25, and a ratio of the number of moles of Eu to a total number of moles of Sr, Ba, and Eu is 0.06 or more and
0.08 or less; and

firing the mixture at 1600° C. or more and 1700° C. or less in an inert gas atmosphere containing 4% or less of hydrogen on
a volume basis,

wherein a peak emission wavelength of the phosphor is 600 nm or more based on a composition ratio of Sr, Ba, and Eu.

US Pat. No. 9,594,275

RETARDATION ELEMENT, LIQUID CRYSTAL DISPLAY DEVICE, AND PROJECTION DISPLAY DEVICE

DEXERIALS CORPORATION, T...

1. A retardation element, comprising:
a transparent substrate;
a retardation imparting antireflection layer formed of an optical multilayer film, and configured to impart a retardation
to an oblique incident light ray among incident light rays, and to prevent the incident light rays from being reflected;

a first birefringent layer that comprises an optically anisotropic inorganic material, wherein an angle formed between a principal
axis of refractive index anisotropy of the optically anisotropic inorganic material and a surface of the transparent substrate
is not 90°; and

a second birefringent layer that comprises an optically anisotropic inorganic material, wherein an angle formed between a
principal axis of refractive index anisotropy of the optically anisotropic inorganic material and the surface of the transparent
substrate is not 90°,

wherein the second birefringent layer contacts the first birefringent layer such that an angle formed between a first line
segment representing the principal axis of refractive index anisotropy of the first birefringent layer and a second line segment
representing the principal axis of refractive index anisotropy of the second birefringent layer is neither 0° nor 180° when
the first line segment and the second line segment are projected on the transparent substrate such that an end A of the first
line segment at a side of the transparent substrate and an end B of the second line segment at a side of the transparent substrate
coincide with each other, and

wherein the second birefringent layer has an average thickness approximately equal to an average thickness of the first birefringent
layer.

US Pat. No. 9,963,598

TRANSPARENT CONDUCTIVE FILM, INFORMATION INPUT DEVICE, AND ELECTRONIC DEVICE

DEXERIALS CORPORATION, T...

1. A dispersion liquid comprising:metal nanowires; and
a colored compound adsorbed to the metal nanowires, wherein
the colored compound is no greater than 0.1 percent by weight of the dispersion liquid, and the colored compound is at least 0.0001 percent by weight of the dispersion liquid, and
the colored compound is represented by the general formula [R—X] in which “R” is a chromophoric group and “X” is a functional group bound to the metal constituting the metal nanowire.

US Pat. No. 9,957,421

SEALING TAPE, PHOSPHOR SHEET, LIGHTING DEVICE, LIQUID-CRYSTAL DISPLAY, METHOD FOR MANUFACTURING PHOSPHOR SHEET, AND SEALING METHOD

Dexerials Corporation, S...

1. A sealing tape comprising:an adhesive layer, a gas barrier layer, a bonding layer, and support film layer laminated in stated order; and
an incision into the support film layer in a thickness direction, the incision being located substantially centrally in a width direction and extending in a longitudinal direction.

US Pat. No. 9,873,832

PHOSPHOR SHEET

Dexerials Corporation, S...

1. A phosphor sheet, comprising:
moisture vapor barrier films;
a first phosphor layer sandwiched between the moisture vapor barrier films; and
a cover member comprising a substrate layer, an adhesive layer adjacent the substrate layer, and a second phosphor layer on
an opposite side of the substrate layer away from the adhesive layer, the cover member sealing an edge portion of each of
the moisture vapor barrier films, and any edge portion of the first phosphor layer,

wherein the adhesive layer attaches the substrate layer to the edge portion of each of the moisture vapor barrier films,
wherein the substrate layer is arranged over and around the edge portion of each of the moisture vapor barrier films,
wherein the second phosphor layer is disposed on an edge portion of the phosphor sheet, on the outer side of the moisture
vapor barrier films and the substrate layer, away from the first phosphor layer, and

wherein the second phosphor layer corrects a difference in color hue in the vicinity of the edge portion of the phosphor sheet,
to bring the color hue closer to the color hue in the middle portion of the phosphor sheet.

US Pat. No. 9,853,619

ELECTROSTATIC CAPACITANCE ELEMENT AND RESONANCE CIRCUIT

DEXERIALS CORPORATION, T...

6. A resonance circuit, comprising:
a resonance capacitor including an electrostatic capacitance element; and
a resonance coil connected to the resonance capacitor,
the electrostatic capacitance element, comprising:
a capacitance element body, wherein two or more capacitors are formed of at least two dielectric layers and at least three
internal electrodes, the at least three internal electrodes each being laminated via the at least two dielectric layers and
arranged to allow a center of gravity of an electrode body of each of at least three internal electrodes forming electrostatic
capacitance to be arranged on a straight line in a lamination direction thereof, and said two or more capacitors are serially
connected in the lamination direction of the at least three internal electrodes;

at least three external electrodes; and
at least three external terminals formed in a side surface of the capacitance element body and electrically connected to each
electrode body of the at least three internal electrodes forming electrostatic capacitance,

wherein the capacitance element body comprises a plurality of layered products in the lamination direction, each of the plurality
of layered products comprising the at least three internal electrodes constituting the two or more capacitors serially connected
in the lamination direction, and the two or more capacitors formed in the respective layered products are connected in parallel,

wherein, between two layered products adjoining each other in the lamination direction of the plurality of layered products,
the internal electrode of the at least three internal electrodes formed as a top layer of one of the two layered products
also serves as the internal electrode of the at least three internal electrodes formed as a bottom layer of the other one
of the two layered products.

US Pat. No. 9,789,674

BONDING DEVICE AND METHOD FOR PRODUCING PLATE-SHAPED BONDED ASSEMBLY

Dexerials Corporation, T...

1. A bonding device comprising:
a pair of plate-shaped members;
a pair of retaining base members that retains the pair of plate-shaped members facing each other;
a retaining base member movement unit that causes movement of the pair of retaining base members towards and away from each
other;

an illumination unit that illuminates curing light to a photo-curable liquid material charged between the pair of plate-shaped
members held by the pair of retaining base members; and

a sensor that detects a wetting spreading state of the liquid material charged between the pair of plate-shaped members,
wherein one of the pair of plate-shaped members is a transparent panel of a display device,
wherein one retaining base member of the pair of retaining base members comprises a sensor opening near outer lateral side
edges of the one of the pair of plate-shaped members retained by the retaining base member,

wherein the sensor illuminates laser light to one of the pair of plate-shaped members via the sensor opening, and
wherein the illumination unit illuminates the curing light to the liquid material that is wettingly spread to near the outer
lateral side edges of the pair of plate-shaped members, based on the result of detection by the sensor.

US Pat. No. 9,746,206

HEAT-ABSORBING MATERIAL AND PROCESS FOR PRODUCING SAME

DEXERIALS CORPORATION, T...

1. Heat-absorbing material, comprising:
a heat-resistant metal having a substantially same periodic structure in a light incidence plane as a wavelength of sunlight
having a specific wavelength in wavelength regions of visible light and near-infrared rays; and

a cermet having a metal concentration of not more than 10 wt % formed on the light incidence plane of the heat-resistant metal,
wherein the cermet includes a metal containing at least one of Mo, W, and Ta; and a ceramic containing Al2O3 or SiO2.

US Pat. No. 9,703,026

POLARIZING PLATE HAVING A TRANSPARENT SUBSTRATE, AN ABSORBING LAYER AND A REFLECTIVE LAYER AND METHOD OF MANUFACTURING THE SAME

DEXERIALS CORPORATION, T...

1. A polarizing plate comprising:
a transparent substrate transmitting light in a used bandwidth;
an absorbing layer having at least a metal-containing semiconductor layer containing a metal, the absorbing layer being arranged
as a one-dimensional lattice shaped wire-grid structure having a pitch smaller than a wavelength of the light in the used
bandwidth; and

a reflective layer arranged as a one-dimensional lattice shaped wire-grid structure having a pitch smaller than the wavelength
of light in the used bandwidth, wherein the absorbing layer and the reflective layer are layered on the transparent substrate
in this order.

US Pat. No. 9,687,809

SMALL REACTOR AND REACTION DEVICE

DEXERIALS CORPORATION, T...

1. A small reactor, comprising:
an inorganic transparent substrate, which contains:
a reaction channel configured to allow a chemical reaction to proceed therein;
a supply channel, which is connected to one end of the reaction channel, and is configured to supply samples to be reacted
in the reaction channel; and

a discharge channel, which is connected to the other end of the reaction channel, and is configured to discharge a reaction
product from the reaction channel,

wherein the inorganic transparent substrate is in the shape of an arc-shaped curve,
wherein the inorganic transparent substrate is composed of a first inorganic transparent substrate in a surface of which a
groove to be the reaction channel is formed, and a second inorganic transparent substrate provided to the side of the surface
of the first inorganic transparent substrate where the groove is formed, where the first inorganic transparent substrate and
the second inorganic transparent substrate are joined with joint surfaces formed at surfaces thereof, and

wherein the inorganic transparent substrate is an inorganic transparent substrate having integral structure of the first inorganic
transparent substrate and the second inorganic transparent substrate.

US Pat. No. 10,002,704

COIL MODULE

DEXERIALS CORPORATION, T...

1. A coil module comprising:a magnetic shielding layer in a sheet shape containing a magnetic material; and
a spiral coil, the spiral coil having a conductor that is wound into a coil shape having a radially inner side and a radially outer side,
wherein the magnetic shielding layer includes a plurality of magnetic resin layers each containing magnetic particles, and
at least a portion of the spiral coil is buried in a portion of the magnetic resin layers, a remaining portion of the spiral coil is released from the magnetic resin layers, and the remaining portion extends from the radially inner side across the spiral coil to the radially outer side and is released from the magnetic resin layers on the radially outer side.

US Pat. No. 9,997,486

ANISOTROPIC CONDUCTIVE FILM INCLUDING OBLIQUE REGION HAVING LOWER CURING RATIO

DEXERIALS CORPORATION, T...

1. An anisotropic conductive film comprising a first connection layer and a second connection layer formed on a surface of the first connection layer, whereinthe first connection layer is a photopolymerized resin layer,
the second connection layer is a thermo- or photo-cationically, anionically, or radically polymerizable resin layer, and
conductive particles for anisotropic conductive connection are arranged in a single layer on the surface of the first connection layer, wherein
the first connection layer includes an oblique region in which a curing ratio is lower than that of the surface of the first connection layer and exists in a direction oblique to a thickness direction of the first connection layer, and a second region having an interface with the oblique region,
the interface is oblique to the surface of the first connection layer, and
the curing ratio of the oblique region is made lower than the second region.

US Pat. No. 9,885,895

IMAGE DISPLAY DEVICE AND PRODUCTION METHOD THEREOF

DEXERIALS CORPORATION, T...

1. A method for producing an image display device comprising arranging an image display panel and a transparent protective
panel formed from a plastic to face each other via a resin composition, and curing the resin composition,
wherein an outer dimension of the protective panel is larger than an outer dimension of the image display panel, and the resin
composition is cured in a state where a peripheral edge of the protective panel is fixed with a fixing jig,

the protective panel has a shielding part on the peripheral edge thereof, the shielding part being fixed with the fixing jig,
the fixing jig is a case, and the upper end portion thereof is folded over to form an eaves-shaped holding part,
the holding part is formed so as to become smaller than the width of the shielding part,
an upper face of the peripheral edge of the protective panel is held by the case,
wherein a cured resin formed by curing the resin composition has a first refractive index, the liquid crystal display panel
has a second refractive index, the protective panel has a third refractive index, and

the first refractive index, the second refractive index and the third refractive index are equal to each other.

US Pat. No. 9,870,886

PROTECTIVE ELEMENT AND PROTECTIVE CIRCUIT SUBSTRATE USING THE SAME

DEXERIALS CORPORATION, T...

1. A protective element comprising:
a rectangurarly shaped insulating substrate;
a heat-generating element formed on the insulating substrate;
an insulating member laminated on the insulating substrate for so as to cover at least the heat-generating element;
a first and a second electrodes laminated on a surface of the insulating substrate;
a first connecting terminal provided on a back surface of the insulating substrate and being continuous with the first electrode
and a second connecting terminal provided on the back surface and being continuous with the second electrode;

a heat-generating element extracting electrode provided on a current path between the first and the second electrodes and
electrically connected to the heat-generating element; and

a meltable conductor laminated on a region extending from the heat-generating element extracting electrode to the first and
second electrodes and to be melted by heat to interrupt the current path between the first electrode and the second electrode;

wherein at least one of the corner portions of the insulating substrate is chamfered.

US Pat. No. 9,653,371

UNDERFILL MATERIAL AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE USING THE SAME

DEXERIALS CORPORATION, T...

1. A method for manufacturing a semiconductor device comprising:
a mounting step of mounting a semiconductor chip onto an electronic component, the semiconductor chip having a solder-tipped
electrode formed thereon and an underfill material applied to the surface of the solder-tipped electrode, and the electronic
component having a counter electrode facing the solder-tipped electrode, and

a thermocompression bonding step of thermally compressing the semiconductor chip and the electronic component, wherein
the underfill material contains a phenoxy resin, an epoxy resin, a curing agent, a (meth)acrylate resin and an organic peroxide,
and a time for a reaction rate to reach 20% at 240° C. calculated by Ozawa method using a differential scanning calorimeter
is 2.0 sec or less and a time for the reaction rate to reach 60% is 3.0 sec or more.

US Pat. No. 9,670,329

CYCLIC OLEFIN RESIN COMPOSITION FILM

DEXERIALS CORPORATION, T...

1. A cyclic olefin resin composition film, comprising:
an addition copolymer of norbornene and ethylene; and
a styrene elastomer having a storage modulus of 20 MPa or lower at 0° C. to 100° C.,
wherein the styrene elastomer has a styrene content of 20 to 40 mol %.

US Pat. No. 9,673,168

CONNECTION BODY

DEXERIALS CORPORATION, T...

1. A connection body comprising:
a circuit substrate; and
an electronic component connected onto the circuit substrate via an anisotropic conductive adhesive agent;
wherein the circuit substrate has substrate electrodes formed thereon and the electronic component has electrode terminals
formed thereon, both of which having stepped sections formed on respective edge-side areas;

wherein conductive particles contained by the anisotropic conductive adhesive agent are sandwiched between main surfaces of
the substrate electrodes and the electrode terminals and between the stepped sections formed on the respective edge-side areas
of the substrate electrodes and the electrode terminals; and

wherein the conductive particles and each of the stepped sections of the substrate electrodes and the electrode terminals
satisfy the following formula (1);

a+b+c?0.8D  (1)

wherein a is a height of the stepped section of the electrode terminals, b is a height of the stepped section of the substrate
electrodes, c is a gap distance between each of the stepped sections and D is a diameter of the conductive particles.

US Pat. No. 9,670,384

LIGHT-REFLECTIVE ANISOTROPIC CONDUCTIVE ADHESIVE AND LIGHT-EMITTING DEVICE

DEXERIALS CORPORATION, T...

1. A light-reflective anisotropic conductive adhesive used for anisotropic conductive connection of a light-emitting element
to a wiring substrate, the light-reflective anisotropic conductive adhesive comprising a thermosetting resin composition,
conductive particles, and light-reflective insulating particles, wherein
the light-reflective insulating particles are titanium oxide particles subjected to a surface treatment with a metal oxide,
and

the metal oxide is SiO.

US Pat. No. 9,670,385

ANISOTROPIC CONDUCTIVE ADHESIVE

DEXERIALS CORPORATION, T...

17. A connection structure comprising:
a first electronic component;
a second electronic component; and
an anisotropic conductive film for bonding the first electronic component and the second electronic component by using an
anisotropic conductive adhesive containing conductive particles each comprising a metal layer having Ag as a primary constituent
formed on an outermost surface of a resin particle, solder particles having an average particle diameter that is smaller than
the conductive particles, reflective insulating particles having an average particle diameter that is smaller than the solder
particles and a binder in which the conductive particles, the solder particles and the reflective insulating particles are
dispersed;

wherein terminals of the first electronic component and terminals of the second electronic component are electrically connected
via the conductive particles and solder bonded by the solder particles.

US Pat. No. 9,634,392

MULTI-COIL MODULE AND ELECTRONIC DEVICE

DEXERIALS CORPORATION, T...

1. A multi-coil module comprising:
a first coil module having a first magnetic sheet, and a first loop coil provided on the first magnetic sheet and wound in
a planar shape; and

a second coil module having a second magnetic sheet, and a second loop coil provided on the second magnetic sheet and wound
in a planar shape,

wherein the first coil module and the second coil module are stacked on each other, and at least an innermost coil pattern
of the first loop coil and the second loop coil are overlaid with each other,

a line width of the innermost coil pattern of the first loop coil overlaid with the second loop coil is 1 mm or less, and
the first loop coil is configured such that a pitch between outer coil patterns is smaller than a pitch between inner coil
patterns.

US Pat. No. 9,618,657

OPTICAL ELEMENT, DISPLAY DEVICE, AND INPUT DEVICE

DEXERIALS CORPORATION, T...

1. An optical element comprising:
a base material having a surface; and
a plurality of structures which are fixed on the surface of the base material at a pitch of 175 nm or more and 350 nm or less
and which each comprise a convex or concave portion, wherein

a water contact angle on the surface on which the structures are formed is 110° or less,
a crosslink density of the structures is 0.8 mol/L or more and 5.1 mol/L or less,
an elastic modulus of a material forming the structures is 1 MPa or more and 1200 MPa or less, and
the surface on which the structures are formed is hydrophilic.

US Pat. No. 9,488,762

POLARIZING ELEMENT WITH MOTH EYE STRUCTURE BETWEEN PROJECTION PORTIONS AND A METHOD FOR MANUFACTURING THE SAME

DEXERIALS CORPORATION, T...

1. A polarizing element, comprising:
a substrate transparent to light having a bandwidth to be used; and
a grid pattern made of a translucent material and configured such that a plurality of projection portions continuous in one
in-plane direction of the substrate are formed on a surface of said substrate at a pitch smaller than a wavelength of light
having the bandwidth to be used, wherein

each of the projection portions includes a base portion with a rectangular cross-section and a tapered surface portion formed
at a top of the base portion,

a fine particle layer made of inorganic fine particles is laminated on at least one surface of said tapered surface portion,
the inorganic fine particles are distributed in an island shape on the at least one surface of the tapered surface portion,
the fine particle layer does not protrude over a side face of the base portion, and
the grid pattern has a convex line portion between the projection portions and forms a moth eye structure, the convex line
portion being lower in height than the projection portion and comprising a plurality of continuous convex lines, each continuous
convex line being rounded outward from the surface of the substrate, an entire width of each continuous convex line extending
from one of the projection portions to an adjacent one of the projection portions.

US Pat. No. 9,376,744

PHASE-DIFFERENCE ELEMENT HAVING BIREFRINGENT FILM CONTAINING TIO2 AND TA2O5

DEXERIALS CORPORATION, T...

1. A phase difference element, comprising a transparent substrate and a birefringent film in which tantalum oxide and titanium
oxide are obliquely deposited on one surface of the transparent substrate,
wherein:
the birefringent film comprises a plurality of first photorefractive films and second photorefractive films that are directly
and alternately laminated to each other and have different oblique deposition directions,

a ratio of titanium atoms to a total of titanium atoms and tantalum atoms in the birefringent film is 4.0 atomic % or higher
and 30 atomic % or lower,

the transparent substrate comprises a plurality of parallel grooves formed in the surface on which the tantalum oxide and
titanium oxide are obliquely deposited,

each of the first photorefractive films and each of the second photorefractive films comprises tantalum oxide and titanium
oxide, and

each of the first photorefractive films is a single layer and each of the second photoreflective films is a single layer.

US Pat. No. 10,299,382

CONNECTION BODY AND CONNECTION BODY MANUFACTURING METHOD

DEXERIALS CORPORATION, T...

1. A connection body comprising:an electronic component connected onto a circuit substrate via an anisotropic conductive adhesive agent;
wherein the anisotropic conductive adhesive agent has a binder resin in which conductive particles are arranged;
wherein the conductive particles in a space between connecting electrodes formed on the electronic component have an average inter-particle distance with respect to each other that is greater than an inter-particle distance of the conductive particles trapped between substrate electrodes formed on the circuit substrate and the connecting electrodes, and
wherein external tangent lines of the arranged conductive particles trapped between the substrate electrodes formed on the circuit substrate and the connecting electrodes intersect with adjacent conductive particles in a longitudinal direction of the substrate electrode and the connecting electrodes.

US Pat. No. 10,026,709

ANISOTROPIC ELECTRICALLY CONDUCTIVE FILM

DEXERIALS CORPORATION, T...

1. A method of producing an anisotropic electrically conductive film having a structure, in which electrically conductive particles are disposed on or near a surface of an electrically insulating adhesive base layer, wherein an electrically conductive particle group is configured from two or more electrically conductive particles, and the electrically conductive particle group is disposed in a lattice point region of a planar lattice pattern, the method comprising the following steps (i) to (iv):step (i)
preparing a transfer body having a convex portion corresponding to a lattice point region of a planar lattice pattern, formed on a surface thereof;
step (ii)
forming two or more slightly adhesive portions on a top surface of the convex portion of the transfer body;
step (iii)
depositing electrically conductive particles on the slightly adhesive portions of the convex portion of the transfer body; and
step (iv)
transferring the electrically conductive particles to an electrically insulating adhesive base layer by overlapping and pressing the electrically insulating adhesive base layer on the surface at a side of the transfer body on which the electrically conductive particles are deposited.

US Pat. No. 9,920,272

IONIC LIQUID, LUBRICANT, AND MAGNETIC RECORDING MEDIUM

DEXERIALS CORPORATION, S...

1. A lubricant comprising:
an extreme pressure agent, and
an ionic liquid, which includes a conjugate acid (B+) and a conjugate base (X?), and is protic,

wherein the ionic liquid is represented by the following general formula (1):

where R1 and R2 each represent a hydrogen atom or R1 and R2 form a benzene ring together with carbon atoms to which R1 and R2 are bonded, and R3 represents a straight-chain hydrocarbon group having 10 or more carbon atoms in the general formula (1).

US Pat. No. 9,722,313

ANTENNA DEVICE AND ELECTRONIC EQUIPMENT

DEXERIALS CORPORATION, S...

1. An antenna device that is used in an electronic equipment and that is configured to communicate with external equipment
through an electromagnetic signal, the antenna device comprising:
an antenna substrate which is arranged on an inner surface of a housing member constituting a housing of the electronic equipment
and around which an antenna coil, which is configured to be inductively coupled to the external equipment, is wound;

a conductive body in the form of a sheet that is arranged on the antenna substrate to be superposed on a portion of the antenna
coil; and

a magnetic sheet that is arranged to be superposed on at least a portion of the antenna coil and that is configured to attract
a magnetic field emitted from the external equipment to the antenna coil, wherein

on a first side of the antenna coil in which a current flowing through wiring of the antenna coil is carried in one direction,
the antenna coil is closer to the external equipment than the magnetic sheet is, and/or, on a second side of the antenna coil
in which the current flowing through the wiring of the antenna coil is carried in another direction that is opposite to the
one direction, the magnetic sheet is closer to the external equipment than the antenna coil and the conductive body are,

the conductive body is superposed only on the second side of the antenna coil, and
the first side of the antenna coil is located on the peripheral side in the housing member, and the second side of the antenna
coil is located on the central side in the housing member.

US Pat. No. 9,989,687

WAVE PLATE HAVING CONSISTENT BIREFRINGENCE PROPERTIES ACROSS THE VISIBLE SPECTRUM AND MANUFACTURING METHOD FOR SAME

DEXERIALS CORPORATION, T...

1. A wave plate composed of:a substrate on which periodic convex and concave portions are formed in a lattice shape, each of the periodic convex and concave portions having a period less than or equal to a wavelength of light;
columnar portions that are formed only on each of the convex portions in a columnar shape by oblique vapor depositing a dielectric material carried out alternately in two directions different from each other by 180°, with fine grains of the dielectric material being stacked in a vertical direction relative to a surface of the substrate, the wave plate having a birefringence quantity of 0.13 or more within a visible light area, the dielectric material containing Ta2O5, each layer of the dielectric material of the columnar portions having a thickness of 10 nm or less, wherein the number of layers of the dielectric material is substantially greater than 10 such that birefringence quantities of the wave plate between two arbitrary wavelengths within the visible light area have a difference of 0.02 or less;
an interstice in the dielectric material that is positioned on each of the concave portions, the interstice being formed between the columnar portions such that the dielectric material is only disposed on the columnar portions formed on the convex portions.

US Pat. No. 9,975,291

NANOSTRUCTURE AND METHOD OF MANUFACTURING THE SAME

DEXERIALS CORPORATION, T...

1. A nanostructure master used for manufacturing a nanostructure, the nanostructure master including surface concavities and convexities and an area without concavities and convexities that forms a seam in the nanostructure, so as to form the nanostructure comprising a number of tracks, each including arrangement of structures formed by the surface concavities and convexities on a surface of a substrate with a predetermined pitch, whereinevery track includes a portion in which there are no additional structures continuously formed within the predetermined pitch so as to form the seam across a plurality of tracks, wherein the portion includes a distance between centers of the structures adjacent to each other across the seam,
the distance between the centers of the structures adjacent to each other across the seam or a length of the seam is determined so as to prevent visual recognition of the seam,
the distance between the centers of the structures adjacent to each other across the seam is set to be:
(i) 1 to 1.52 times the predetermined pitch, or
(ii) greater than 1.52 times the pitch when the length of the seam continuously formed across a plurality if tracks is set at 50 ?m or less, and
the adjacent structures of different tracks are arranged in a staggered manner.

US Pat. No. 9,953,792

SHORT-CIRCUIT ELEMENT AND A CIRCUIT USING THE SAME

DEXERIALS CORPORATION, T...

1. A short-circuit element comprising:an insulating substrate;
a first and a second heat-generating resistors formed on the insulating substrate;
a first and a second electrodes arranged adjacently to each other on the insulating substrate;
a third electrode arranged adjacently to the first electrode on the insulating substrate and electrically connected to the first heat-generating resistor;
a fourth electrode arranged adjacently to the second electrode on the insulating substrate and electrically connected to the second heat-generating resistor;
a first meltable conductor arranged between the first and third electrodes to constitute a current path capable of being blown by a heat generated by the first heat-generating resistor; and
a second meltable conductor arranged between the second and fourth electrodes to constitute a current path capable of being blown by a heat generated by the second heat-generating resistor,
wherein the first and second meltable conductors are melted by the heat from the first and second heat-generating resistors and gather on the first and second electrodes to short-circuit the first and second electrodes.

US Pat. No. 9,752,001

ION CONDUCTIVE FILM, POLYMER ELEMENT, ELECTRONIC DEVICE, CAMERA MODULE, AND IMAGING DEVICE

DEXERIALS CORPORATION, T...

1. An ion conductive film comprising:
a single layer that includes:
an ion conductive macromolecular material;
a carbon material; and
an electrically conductive material different from the carbon material, wherein the ion conductive macromolecular material,
the carbon material and the electrically conductive material different from the carbon material are intermixed.

US Pat. No. 9,567,494

DOUBLE-SIDED ADHESIVE TAPE

DEXERIALS CORPORATION, T...

1. A double-sided adhesive tape comprising an adhesive composition containing an inorganic filler and a resin composition
containing the following components (A) to (D)
(A) an acrylate-based monomer,
(B) a monomer copolymerizable with (A),
(C) a photopolymerization initiator, and
(D) a photo-crosslinking agent,the adhesive composition being cured into a sheet form, wherein the inorganic filler has an average particle diameter of 30
?m or less and is localized on one side of the tape, and
a surface roughness, with a center line average roughness Ra, of a tape surface on the one side on which the inorganic filler
is localized is 0.01 to 0.50 ?m; wherein

no inorganic filler is present on a surface of the tape that is opposite to the tape surface on the one side on which the
inorganic filler is localized.

US Pat. No. 10,067,527

CONDUCTIVE SHEET

DEXERIALS CORPORATION, T...

1. A conductive sheet comprising a base substrate, a conductive adhesive layer laminated on one side of the base substrate and a light-shielding insulating layer laminated on another side of the base substrate, whereinthe base substrate has a structure in which the same kind of metal layers are formed on respective sides of a resin film, where the structure of the base substrate is formed by laminating metal foils on the respective sides of the resin film via an adhesive layer,
the light-shielding insulating layer of the conductive sheet has a surface having a surface resistivity of 1.0×108 ?/square or more, and the conductive adhesive layer of the conductive sheet has a surface having a surface resistivity of 500 m?/square or less, and
the conductive sheet exhibits a curl characteristic in that when the conductive sheet further comprises a release sheet on a side of the conductive adhesive layer, and when the conductive sheet is cut into a sample strip with a width of 15 mm and a length of 150 mm, peeling the release sheet from the sample strip in a direction of 180° results in a curl of the sample strip of less than one rotation.

US Pat. No. 10,042,176

POLARIZATION CONVERSION ELEMENT, POLARIZATION-CONVERSION-ELEMENT MANUFACTURING METHOD, LIGHT-SOURCE UNIT, AND OPTICAL DEVICE

DEXERIALS CORPORATION, S...

1. A polarization conversion element comprising:a polarizing beam-splitter array formed to bond a first light-transmitting member with a polarization separation layer that transmits either one of a P wave or a S wave and reflects the other one, and a second light-transmitting member with a reflective layer that reflects the other one of the P wave or the S wave reflected by the polarization split layer, wherein the other one of the P wave or the S wave incident from an incident surface being reflected by the reflective layer to an output surface;
an inorganic half-wave plate which is selectively provided above the output surface of the polarizing beam-splitter array, the inorganic half-wave plate including an obliquely deposited layer made of a dielectric material; and
a protective film that covers side surfaces in a thickness direction of the obliquely deposited layer of the inorganic half-wave plate,
wherein the protective film is selected from a group consisting of SiO2, Ta2O5, TiO2, Al2O3, Nb2O5, LaO, and MgF2,
wherein the obliquely deposited layer is a flat layer,
wherein the inorganic half-wave plate is formed by laminating a glass substrate, a first refractive-index adjustment layer, the obliquely deposited layer, a second refractive-index adjustment laver, and the protective film in this order, and
wherein the protective film covers side surfaces in a thickness direction of the first refractive-index adjustment layer,the obliquely deposited layer, and the second refractive-index adjustment layer.
US Pat. No. 9,969,678

METHOD OF PRODUCING OPTICALLY ACTIVE ?-AMINOCARBONYL COMPOUND

DEXERIALS CORPORATION, T...

1. A column reactor in which a column for a column reactor is charged with asymmetric catalyst particles, whereinthe asymmetric catalyst particles are resin particles that are prepared from a monomer composition containing a proline derivative monomer having an unsaturated bond and a radical polymerization initiator, and that act as a catalyst for an asymmetric Mannich-type reaction, and
the asymmetric catalyst particles have a particle diameter of 1 to 10 ?m, which are prepared through a microchannel method in which the monomer composition is discharged into a continuous phase to form droplets of the monomer composition in the continuous phase, and the droplets are heated to radically polymerize the proline derivative monomer having an unsaturated bond.

US Pat. No. 9,953,947

ANISOTROPIC CONDUCTIVE FILM AND CONNECTION STRUCTURE

DEXERIALS CORPORATION, T...

1. An anisotropic conductive film comprising:electrically conductive particle units in which electrically conductive particles are arranged in a row, or electrically conductive particle units in which electrically conductive particles are arranged in a row and independent electrically conductive particles, disposed in a lattice form in an electrically insulating adhesive layer; wherein
a shortest distance between electrically conductive particles selected from adjacent electrically conductive particle units of the electrically conductive particle units and the independent electrically conductive particles is not less than 0.5 times a particle diameter of the electrically conductive particles.

US Pat. No. 9,946,001

PHASE DIFFERENCE ELEMENT HAVING BIREFRINGENT FILM CONTAINING TITANIUM OXIDE TANTALUM OXIDE

DEXERIALS CORPORATION, T...

1. A phase difference element, comprising a transparent substrate and a birefringent film in which tantalum oxide and titanium oxide are obliquely deposited on one surface of the transparent substrate,wherein:
the birefringent film comprises a plurality of first photorefractive films and second photorefractive films that are directly and alternately laminated to each other and have different oblique deposition directions,
a ratio of titanium atoms to a total of titanium atoms and tantalum atoms in the birefringent film is 4.0 atomic % or higher and 30 atomic % or lower,
each of the first photorefractive films and each of the second photorefractive films comprises crystal grains oriented along the oblique deposition direction, and each of the first photorefractive films and each of the second photorefractive films comprise tantalum oxide and titanium oxide, and
each of the first photorefractive films is a single layer and each of the second photorefractive films is a single layer.

US Pat. No. 9,926,475

RESIN COMPOSITION, ADHESIVE TAPE, AND METHOD FOR PRODUCING ADHESIVE TAPE

DEXERIALS CORPORATION, T...

1. An adhesive composition comprising: an acrylic monomer; a photopolymerization initiator; and a coloring agent which has a mean volume particle diameter of not less than 1 ?m and not more than 20 ?m and in which a pigment is encapsulated in a resin,wherein the coloring agent is contained so that an amount of the pigment in the resin composition is not less than 0.25 wt % and not more than 1.0 wt %, and the resin in the coloring agent is made of urethane resin or acrylic resin, and
the acrylic monomer is a partially polymerized substance of a (meth)acrylic acid alkyl ester monomer and a monomer capable of being copolymerized with the (meth)acrylic acid alkyl ester, or a combination of these monomers.

US Pat. No. 9,754,900

THERMOSETTING ADHESIVE SHEET AND SEMICONDUCTOR DEVICE MANUFACTURING METHOD

DEXERIALS CORPORATION, T...

1. A thermosetting adhesive sheet to be applied to a grinding-side surface of a semiconductor wafer before dicing the semiconductor
wafer, comprising:
a thermosetting binder;
a transparent filler having an average primary particle diameter from 1 nm to 1000 nm; and a colorant;
wherein content of the transparent filler is from 30 to 100 parts by weight with respect to 80 parts by weight of the thermosetting
binder, and content of the colorant is from 0.5 to 3.0 parts by weight with respect to 80 parts by weight of the thermosetting
binder, and

the thermosetting binder comprises a polymer comprising an elastomer, a (meth)acrylate in which polyfunctional (meth)acrylate
exceeds 95 wt % of the total (meth)acrylate content and an organic peroxide having a one-minute half-life temperature of 130°
C. or less.

US Pat. No. 9,691,677

UNDERFILL MATERIAL AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE USING THE SAME

DEXERIALS CORPORATION, T...

1. A method for manufacturing a semiconductor device comprising:
a mounting step of mounting a semiconductor chip onto an electronic component, the semiconductor chip having a solder-tipped
electrode formed thereon and an underfill material applied to the surface of the solder-tipped electrode, and the electronic
component having a counter electrode facing the solder-tipped electrode, and

a thermocompression bonding step of thermally compressing the semiconductor chip and the electronic component by increasing
a temperature at a predetermined rate from a first temperature to a second temperature, wherein

the underfill material contains an epoxy resin, a curing accelerator, a (meth)acrylate resin and an organic peroxide, the
minimum melt viscosity of the underfill material ranges from 1000 Pa*s to 2000 Pa*s, and the gradient of the melt viscosity
from a temperature 10° C. higher than a minimum melt viscosity attainment temperature to a temperature 10° C. higher than
the temperature ranges 900 Pa*s/° C. to 3100 Pa*s/° C.

US Pat. No. 9,664,821

OPTICAL ELEMENT AND METHOD FOR MANUFACTURING MASTER FOR PRODUCING OPTICAL ELEMENT

DEXERIALS CORPORATION, T...

1. An optical element comprising:
a plurality of structures including convex portions or concave portions arranged on a base member surface and having an anti-reflection
property, wherein:

the structures are arranged to constitute a quasi-hexagonal lattice pattern having a plurality of tracks on the base member
surface,

a first arrangement pitch of the structures in the same track is larger than a second arrangement pitch of the structures
between adjacent two tracks,

each arrangement pitch of all structures is between 380 nm to 680 nm, and
an aspect ratio of all structures is 0.64 to 0.75, wherein the aspect ratio is defined by a height (H) of one structure and
an arrangement pitch (P) between one structure and an adjacent structure, and calculated based on equation 1 as follows:

aspect ratio=H/P  (equation 1).

US Pat. No. 10,095,105

METHOD FOR MANUFACTURING MASTER, TRANSFER COPY, AND REPLICA MASTER

DEXERIALS CORPORATION, T...

1. A method for manufacturing a master, the method comprising:forming a thin-film layer on an outer circumferential surface of a base material in a round cylindrical or round columnar shape;
generating a control signal corresponding to an object on the basis of an input image in which the object is depicted, wherein the input image is divided into a plurality of small areas and the control signal is generated on the basis of a determination for each small area as to whether or not the depicted object is included therein;
irradiating the thin-film layer with laser light on the basis of the control signal and thereby forming a thin-film pattern corresponding to the object on the thin-film layer, wherein portions of the thin-film layer are either irradiated with the laser light or are not irradiated with the laser light, based on which small areas the object is determined to be included in; and
forming a pattern corresponding to the object on the outer circumferential surface of the base material using, as a mask, the thin-film layer on which the thin-film pattern is formed.

US Pat. No. 9,994,743

ADHESIVE AND LIGHT-EMITTING DEVICE

DEXERIALS CORPORATION, S...

1. A light-emitting device comprising:a substrate having a wiring pattern comprising aluminum;
an anisotropic conductive film formed on an electrode of the wiring pattern; and
a light-emitting element mounted on the anisotropic conductive film,
the anisotropic conductive film comprising an anisotropic conductive adhesive comprising:
at least one of an alicyclic epoxy compound and an hydrogenated epoxy compound,
a cationic catalyst,
an acrylic resin having a weight average molecular weight of 50,000 to 900,000, and
conductive particles,
wherein the acrylic resin comprises 0.5% to 10% by weight of acrylic acid and 0.5% to 10% by weight of a hydroxyl-group-containing acrylic acid ester, and
wherein said anisotropic conductive adhesive is present in cured form.

US Pat. No. 9,973,010

CONTROL CIRCUIT, RESONANCE CIRCUIT, ELECTRONIC DEVICE, CONTROL METHOD, CONTROL PROGRAM, AND SEMICONDUCTOR ELEMENT

DEXERIALS CORPORATION, T...

1. A control circuit for a variable capacitance element, comprising:a control voltage output section outputting a control voltage consisting of a variable DC voltage;
a plurality of variable capacitance elements each having a capacitance varying with an application of the control voltage; and
a detection section acquiring a characteristic of a circuit containing the plurality of variable capacitance elements,
wherein the control voltage output section is connected to the plurality of variable capacitance elements through a plurality of AC-signal-blocking impedance elements to provide the control voltage to the plurality of variable capacitance elements, and the detection section has a wait time between when the control voltage is applied to the plurality of the variable capacitance elements and when a measurement of the characteristic of the circuit is acquired,
the wait time being set to a plurality of values in accordance with the control voltage, which changes depending on a time constant determined by a product of capacitances of the plurality of variable capacitance elements and resistances of the plurality of AC-signal-blocking impedance elements.

US Pat. No. 9,953,793

SHORT-CIRCUIT ELEMENT AND A CIRCUIT USING THE SAME

DEXERIALS CORPORATION, T...

1. A short-circuit element comprising:an insulating substrate;
a heat-generating resistor arranged on the insulating substrate;
a first and a second electrodes arranged adjacently to each other on the insulating substrate;
a third electrode arranged adjacently to the first electrode on the insulating substrate and electrically connected to the heat-generating resistor; and
a first meltable conductor arranged between the first and third electrodes to constitute a current path capable of being blown by a heat generated by the heat-generating resistor,
wherein the first meltable conductor is melted by the heat from the heat-generating resistor and gathers on the first and second electrodes to short-circuit the first and second electrodes.

US Pat. No. 9,932,523

GREEN PHOSPHOR AND PRODUCTION METHOD THEREFOR, PHOSPHOR SHEET, AND ILLUMINATION DEVICE

Dexerials Corporation, S...

1. A green phosphor represented by the composition formula (Sr1-yCay)1-xGa2S4:Eux, where 0.03?x?0.20 and 0

US Pat. No. 9,840,645

UNDERFILL MATERIAL AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE USING THE SAME

DEXERIALS CORPORATION, T...

1. An underfill material applied to a semiconductor chip having a solder-tipped electrode formed thereon before mounting the
semiconductor chip onto an electronic component having a counter electrode facing the solder-tipped electrode, wherein
the underfill material comprises an epoxy resin, a curing agent, an acrylic resin, and an organic peroxide,
a ratio of the total mass of acrylic resin and organic peroxide to the total mass of epoxy resin and curing agent is in a
range of 7:3 to 4:6,

the underfill material exhibits non-Bingham fluidity at a temperature ranging from 60° C. to 100° C., and
a storage modulus G? measured by dynamic viscosity measurement has an inflection point in an angular frequency region below
10E+02 rad/s and the storage modulus G? in the angular frequency below the inflection point is 10E+05 Pa or more and 10E+06
Pa or less.

US Pat. No. 9,815,799

SURFACE-MODIFYING AGENT AND ARTICLE USING SAME

DEXERIALS CORPORATION, S...

1. A surface-modifying agent comprising:
a triazine skeleton;
a (meth)acrylate group bonded to the triazine skeleton via an urethane bond; and
a perfluoropolyether chain bonded to the triazine skeleton, wherein
the surface-modifying agent is represented by formula (1) or (2) shown below,
where, in the formulae (1) and (2):
—X— represents —O—, —N(R1)—, or —O—CH2CH2—O—, wherein R1 represents hydrogen or an alkyl group;

—Y— represents a perfluoropolyether chain selected from the group consisting of —(OCF2)n—O—(CF2CF2O)m—, —O—(CF2CF2O)p—, —O—(CF2CF2CF2O)q—, and —O—(CF(CF3)CF2C)r—, wherein m, n, p, q, and r each represent a positive integer, 0.8 to one another in any order;

R and R? may represent the same or different structures each indicated by hydrogen, an alkyl group having a carbon number
of 1-8, or —R2—O—CO—NH—R3, with at least one of R and R? being a structure indicated by —R2—O—CO—NH—R3, wherein R2 represents an alkylene group having a carbon number of 2-8 and having a chain, branched, or ring shape, and R3 represents —CH2CH2—OCO—CH?CH2, —CH2CH2—OCO—C(CH3)?CH2, or —C(CH3)—(CH2—OCO—CH?CH2)2; and

Z— represents CF3—, CF3—CF2—O—, CF3—CF2—CF2—, or CF3—CF(CF3)—O—.

US Pat. No. 9,741,598

PROTECTIVE TAPE AND METHOD FOR MANUFACTURING A SEMICONDUCTOR DEVICE USING THE SAME

DEXERIALS CORPORATION, T...

1. A method for manufacturing a semiconductor device comprising:
a protective tape application step of applying a protective tape having an adhesive layer onto a surface of a wafer having
a bump electrode formed thereon, the protective tape comprising the adhesive layer, a thermoplastic resin layer and a backing
material film layer in that order;

a grinding step of grinding a surface of the wafer opposite to the surface of the wafer onto which the protective tape is
applied; and

a peeling step of peeling the protective tape such that the adhesive layer remains and the thermoplastic resin layer and the
backing material film layer are removed;

wherein the adhesive layer comprises a phenoxy resin, an epoxy resin and a curing agent, and a modulus ratio of a shear storage
modulus of the adhesive layer when a thickness of the adhesive layer is 30 ?m to a shear storage modulus of the thermoplastic
resin layer when a thickness of the thermoplastic resin layer is 500 ?m at an application temperature at which the protective
tape is applied, a temperature increase rate of 5° C./min, a vibration frequency of 1 Hz and a deformation of 0.1% is 0.01
or less.

US Pat. No. 9,723,715

ANISOTROPIC CONDUCTIVE FILM, CONNECTION METHOD, AND ASSEMBLY

DEXERIALS CORPORATION, T...

1. An anisotropic conductive film, comprising:
a crystalline resin;
an amorphous resin; and
conductive particles,
wherein the anisotropic conductive film is an anisotropic conductive film configured to anisotropic conductively connect a
terminal of a first electronic part and a terminal of a second electronic part,

wherein the crystalline resin contains a crystalline resin containing a bond characterizing a resin, which is identical to
a bond characterizing a resin contained in the amorphous resin, and

wherein the anisotropic conductive film is an anisotropic conductive film which shows an endothermic peak at a time of heating
and an exothermic peak at a time of cooling when measured by differential scanning calorimetry.

US Pat. No. 9,711,856

ELECTRONIC DEVICE AND COIL MODULE

DEXERIALS CORPORATION, T...

1. An electronic device adapted to be partially inserted into an opening of a housing, comprising:
a coil module including a loop coil wound in a planar shape and a sheet-shaped magnetic sheet, the sheet-shaped magnetic sheet
being formed of a magnetic material and being positioned to overlap with a part of the loop coil, wherein

the magnetic sheet is arranged on a first side of a center of the loop coil and is not arranged on a second side of the center
of the loop coil opposite from the first side, and the electronic device is configured so that sheet-shaped magnetic sheet
and the part of the loop coil overlapped therewith are positioned outside the housing when the electronic device is partially
inserted into the housing and a part of the loop coil not overlapped with the sheet-shaped magnetic sheet is positioned inside
the housing when the electronic device is partially inserted into the housing.

US Pat. No. 9,695,358

RED PHOSPHOR, METHOD FOR PRODUCING RED PHOSPHOR, WHITE LIGHT SOURCE, ILLUMINATING DEVICE, AND LIQUID CRYSTAL DISPLAY DEVICE

DEXERIALS CORPORATION, T...

1. An illuminating device comprising:
a plurality of white light sources disposed on an illumination substrate,
wherein the white light sources each include:
a blue-emitting diode formed on an element substrate; and
a kneaded product disposed on the blue-emitting diode, and provided as a product of a red phosphor and a green phosphor kneaded
in a transparent resin, and

wherein the red phosphor contains an element A, europium (Eu), silicon (Si), aluminum (Al), oxygen (O), and nitrogen (N) at
the atom number ratio of the composition formula (1)

[A(m-x)Eux]Si9AlyOnN[12+y?2(n?m)/3]  Composition Formula (1); and

Carbon,
wherein the element A in the composition formula (1) is at least one of magnesium (Mg), calcium (Ca), strontium (Sr), and
barium (Ba), and m, x, y, and n in the composition formula (1) satisfy the relations 4.5
wherein the compound of the composition formula (1) has a crystal structure that belongs to an orthorhombic system spatial
point group Pmn21.

US Pat. No. 10,047,091

IONIC LIQUID, LUBRICATING AGENT, AND MAGNETIC RECORDING MEDIUM

Dexerials Corporation, T...

1. A magnetic recording medium, comprising:a non-magnetic support; and
at least a magnetic layer on or above the non-magnetic support,
wherein the magnetic layer contains a lubricating agent comprising:
an ionic liquid formed from a Bronsted acid (HX) and a Bronsted base (B),
wherein the ionic liquid is represented by the following General Formula (1), (2) or (3),
wherein the Bronsted acid is trifluoromethane sulfonic acid, a compound represented by the following Structural Formula (A), a compound represented by the following Structural Formula (B), a compound represented by the following Structural Formula (C), or a compound represented by the following Structural Formula (D),
and
wherein a difference between a pKa value of the Bronsted acid in water and a pKa value of the Bronsted base in water is 12 or more;

wherein at least one of R1, R2, R3, and R4 is a hydrogen atom, and at least one of R1, R2, R3, and R4 is a group which contains the linear hydrocarbon group having 10 or more carbon atoms,

wherein R11 denotes the linear hydrocarbon group having 10 or more carbon atoms and being attached to a carbon atom in a bicyclo ring,

wherein R21 denotes the linear hydrocarbon group having 10 or more carbon atoms and being attached to a carbon atom or a nitrogen atom in a bicyclo ring,

US Pat. No. 9,966,324

THERMALLY CONDUCTIVE SHEET, METHOD FOR PRODUCING SAME, AND SEMICONDUCTOR DEVICE

DEXERIALS CORPORATION, T...

1. A thermally conductive sheet, comprising:a binder;
carbon fibers; and
an inorganic filler,
wherein the thermally conductive sheet is to be sandwiched between a heat source and a heat dissipation member of a semiconductor device,
wherein the carbon fibers have an average fiber length of 50 ?m to 250 ?m,
wherein an amount of the carbon fibers in the thermally conductive sheet is 20% by volume to 40% by volume,
wherein an amount of the inorganic filler in the thermally conductive sheet is 30% by volume to 55% by volume,
wherein the inorganic filler contains alumina and aluminum nitride,
wherein the alumina has an average particle diameter of 4 ?m to 5 ?m,
wherein the aluminium nitride has an average particle diameter of 0.5 ?m to 1.5 ?m,
wherein the thermally conductive sheet having the component which shows that:
i) thermal resistance of average thickness of 400 ?m or less indicates higher value than that of average thickness of 500 ?m under the condition of the load of 1.0 kgf/cm2 measured by ASTM-D5470; and
ii) thermal resistance of average thickness of 400 ?m or less indicates lower value than that of average thickness of average thickness of 500 ?m under the condition of the load of 7.5 kgf/cm2 measured by ASTM-D5470;
in case when two thermally conductive sheets having average thickness of 500 ?m and 400 ?m or less of which components of thermally conductive sheet are the same but only their average thickness is different are prepared,
wherein thermal resistance of the thermally conductive sheet is less than 0.17 K·cm2/W, as measured in accordance with ASTM-D5470 with a load of 7.5 kgf/cm2, and
wherein the thermally conductive sheet has the average thickness of 400 ?m or less.

US Pat. No. 9,960,139

ANISOTROPIC CONDUCTIVE FILM, METHOD FOR PRODUCING ANISOTROPIC CONDUCTIVE FILM, METHOD FOR PRODUCING CONNECTION BODY, AND CONNECTION METHOD

DEXERIALS CORPORATION, T...

1. An anisotropic conductive film, comprising:a first insulating adhesive layer; and
a conductive particle-containing layer laminated on the first insulating adhesive layer and having conductive particles each contained independently in an insulating adhesive,
wherein air bubbles are contained between the conductive particle-containing layer and the first insulating adhesive layer, and
the air bubbles are contained in accordance with the conductive particles.

US Pat. No. 9,944,840

METHOD OF PRODUCING HEAT CONDUCTIVE SHEET

DEXERIALS CORPORATION, T...

1. A method of producing a heat conductive sheet, the method comprising:(A) dispersing a fibrous filler and a spherical filler in a binder resin to prepare a heat conductive sheet-forming composition;
(B) forming a molded block using the prepared heat conductive sheet-forming composition;
(C) slicing the formed molded block to a desired thickness to form a sheet;
(D) pressing a sliced surface of the formed sheet, the sliced surface being pressed such that a thermal resistance value of the sheet after pressing becomes lower than the thermal resistance value of the sheet before pressing in order to smooth the sliced surface; and
(E) then disposing the smooth sliced surface of the sheet between a heat generating body and a heat dissipator,
wherein the fibrous filler in (A) is a carbon fiber having an average diameter in a range of 8 to 12 ?m and an aspect ratio in a range of 2 to 50,
amounts of the fibrous filler and the spherical filler added to the heat conductive sheet-forming composition are in a range of 16 to 40% by volume and in a range of 30 to 60% by volume, respectively, and
a thermal resistance value (K·cm2/W) of the sheet before pressing that is formed in (C) is controlled to be in a range of 0.31 to 1.00.

US Pat. No. 9,780,598

POWER-RECEIVING DEVICE, RECEIVING POWER REGULATION METHOD, AND SEMICONDUCTOR DEVICE

DEXERIALS CORPORATION, S...

1. A power-receiving device, comprising:
a transmission/reception unit including a resonant circuit having an antenna configured to receive a power transmitted from
a contactless power transmitter and configured to transmit and receive data to and from the contactless charging device;

a charge control unit configured to perform power source control, including charging of a secondary cell, by using the power
received by the transmission/reception unit; and

a control unit configured to generate control state data indicating a charging state of the secondary cell and/or a control
state of a power source of an apparatus main unit operated with the secondary cell and configured to transmit the generated
control state data to the contactless charging device through the transmission/reception unit, wherein

the control unit has:
a power-receiving mode in which the power transmitted based on the control state data is used for charging of the secondary
cell through the charge control unit and/or for the power source of the apparatus main unit operated with the secondary cell;
and

a regulation mode in which the received power is regulated by setting the control state data to a predetermined constant value
and regulating a resonant frequency of the resonant circuit, and wherein

in the regulation mode, the control unit controls the charge control unit to supply a constant power to a load.

US Pat. No. 9,706,087

POLYMER ELEMENT, ELECTRONIC DEVICE, CAMERA MODULE, AND IMAGING APPARATUS

Dexerials Corporation, T...

1. A polymer element comprising:
a pair of electrode layers of which at least one includes a porous carbon material; and
a polymer layer between the pair of electrode layers,
wherein the porous carbon material is provided with a first hole in a surface and a second hole which is smaller than the
first hole and which communicates with the first hole.

US Pat. No. 10,136,521

WIRING BOARD AND METHOD FOR MANUFACTURING THE SAME

DEXERIALS CORPORATION, T...

1. A method for manufacturing a wiring board comprising:a transferring step of bringing a resin composition containing a first compound inducing a low surface free energy and a second compound inducing a high surface free energy which is higher than the first compound into contact with a master on which a desired surface free energy difference pattern is formed and curing to obtain a base material to which the surface free energy difference pattern is transferred; and
a conductive pattern forming step of applying a conductive coating composition onto a surface of pattern transfer of the base material to form a conductive pattern,
wherein the resin composition is an acrylic resin composition,
wherein the first compound is a perfluoropolyether group-containing (meth)acrylate,
wherein the base material has a pattern of a high surface free energy region and a low surface free energy region,
wherein the high surface free energy region has a surface free energy of 20 to 60 mJ/cm2, and
wherein the low surface free energy region has a surface free energy of 10 to 25 mJ/cm2.

US Pat. No. 10,121,724

HEAT DIFFUSION SHEET

DEXERIALS CORPORATION, T...

1. A heat diffusion sheet comprising a graphite sheet and a composite adhesive film formed on a surface of the graphite sheet, whereinthe graphite sheet has a thickness of 300 ?m or more and 2,000 ?m or less,
the composite adhesive film includes:
(A) an acrylic adhesive layer that has a thickness of 5 ?m or more and 15 ?m or less and does not contain a thermally conductive material,
(B) a polyester film having a thickness of 20 ?m or more and 60 ?m or less, and
(C) a silicone adhesive layer that has a thickness of 2 ?m or more and 25 ?m or less, does not contain a thermally conductive material, and has a peel strength of 0.005 N/cm or more and 1.0 N/cm or less,
the acrylic adhesive layer, the polyester film, and the silicone adhesive layer are sequentially layered from the graphite sheet,
the polyester film is a biaxially stretched polyethylene terephthalate (PET) film,
a tensile strength of the composite adhesive film in a MD direction falls within a range of 100 MPa or more and 300 MPa or less,
a tensile strength of the composite adhesive film in a TD direction falls within a range of 10 MPa or more and 50 MPa or less, and
a storage elastic modulus of the composite adhesive film falls within a range of 1,000 Pa or more and 10,000 MPa or less.

US Pat. No. 9,991,614

ANISOTROPIC ELECTRICALLY CONDUCTIVE FILM AND CONNECTION STRUCTURE

DEXERIALS CORPORATION, T...

11. An anisotropic electrically conductive film, comprising:an electrically insulating adhesive layer; and
electrically conductive particles disposed within the electrically insulating adhesive layer,
wherein first electrically conductive particle disposition regions in which a plurality of the electrically conductive particles are disposed and second electrically conductive particle disposition regions in which an arrangement, arrangement positions, or density of the electrically conductive particles are different than that in the first electrically conductive particle disposition regions are formed, and
the first electrically conductive particle disposition regions and the second electrically conductive particle disposition regions are formed periodically in a longitudinal direction of the anisotropic electrically conductive film.

US Pat. No. 9,966,354

ANISOTROPIC CONDUCTIVE FILM INCLUDING OBLIQUE REGION HAVING LOWER CURING RATIO

DEXERIALS CORPORATION, T...

1. An anisotropic conductive film comprising a first connection layer and a second connection layer formed on a surface of the first connection layer, whereinthe first connection layer is a photopolymerized resin layer,
the second connection layer is a thermo- or photo-cationically, anionically, or radically polymerizable resin layer, and
conductive particles for anisotropic conductive connection are arranged in a single layer on the surface of the first connection layer, wherein
the first connection layer includes an oblique region in which a curing ratio is lower than that of the surface of the first connection layer and exists in a direction oblique to a thickness direction of the first connection layer, and a second region having an interface with the oblique region,
the interface is oblique to the surface of the first connection layer, and
the curing ratio of the oblique region is made lower than the second region.

US Pat. No. 9,816,012

METHOD FOR MANUFACTURING ELECTRICALLY CONDUCTIVE ADHESIVE FILM, ELECTRICALLY CONDUCTIVE ADHESIVE FILM, AND METHOD FOR MANUFACTURING CONNECTOR

DEXERIALS CORPORATION, T...

1. A method for manufacturing an electrically conductive adhesive film, the method comprising:
a step of scattering electrically conductive particles on a wiring board having wiring that is formed in accordance with an
array pattern of the electrically conductive particles and prevented from being charged and charging the electrically conductive
particles;

a step of aligning the charged electrically conductive particles in a predetermined array pattern corresponding to the wiring
pattern by moving a squeegee on the wiring board; and

a step of bonding a transfer film having an adhesive layer formed thereon to the wiring board and transferring the electrically
conductive particles aligned in a predetermined array pattern to the adhesive layer,

wherein a recess for allowing the electrically conductive particles to pass through is formed on the squeegee in accordance
with the array pattern of the electrically conductive particles.

US Pat. No. 9,784,898

PHASE DIFFERENCE COMPENSATING ELEMENT AND PROJECTION-TYPE IMAGE PROJECTING DEVICE

DEXERIALS CORPORATION, T...

12. A projection-type image projecting device comprising
a phase difference compensating element provided between a reflective polarizer and a reflective light modulating element,
the phase difference compensating element including: a birefringent layer formed with a film stack of a plurality of obliquely-deposited
films, each of the obliquely-deposited films having a thickness equal to or smaller than a used wavelength; and a phase-difference-adding
antireflection layer configured to provide the opposite phase difference to a phase difference in obliquely-incident transmitted
light in the birefringent layer, the phase- difference-adding antireflection layer being formed with a film stack of two or
more kinds of dielectric films having different refractive indexes, wherein a phase difference Rd to be provided by the phase-difference-adding
antireflection layer satisfies 1 an incident light angle range of 0 to 25 degrees.

US Pat. No. 10,047,931

GREEN-EMITTING PHOSPHOR PARTICLES, METHOD FOR MANUFACTURING GREEN-EMITTING PHOSPHOR PARTICLES, COLOR CONVERSION SHEET, LIGHT-EMITTING DEVICE, AND IMAGE DISPLAY DEVICE ASSEMBLY

DEXERIALS CORPORATION, T...

1. A color conversion sheet comprising:a first transparent base member;
a second transparent base member; and
a color conversion layer sandwiched between the first transparent base member and the second transparent base member,
wherein the color conversion layer is formed from at least green-emitting phosphor particles and
the green-emitting phosphor particles are composed of M1-xGa2S4:Eux (where 0.10?x?0.20, and M is at least one of Sr, Ca, and Ba) and
the value of (internal quantum efficiency/absorption efficiency) is 0.7 or more.
US Pat. No. 10,040,979

THERMALLY CONDUCTIVE SHEET

DEXERIALS CORPORATION, T...

1. A thermally conductive sheet in which an adhesive thermally conductive layer and a non-adhesive resin layer are laminated, wherein the adhesive thermally conductive layer contains an acrylic resin formed by curing an acrylic compound and a thermally conductive filler, and a tack property of the adhesive thermally conductive layer is higher than a tack property of the non-adhesive resin layer, andthe non-adhesive resin layer is formed from a resin having a molecular weight in terms of number average molecular weight, greater than or equal to 100,000 and less than or equal to 500,000, the resin
having a glass transition temperature greater than or equal to 10° C. and less than or equal to 110° C. and
containing at least one functional group selected from
a hydroxy group,
a carboxyl group and
a glycidyl group,
a curing agent and
a flame retardant filler, and
the tack property of the non-adhesive resin layer is from 6 to 30 kN/m2 as a probe tack measured by pressing an aluminum cylindrical probe on the non-adhesive resin layer and then peeling the aluminum cylindrical probe from the non-adhesive resin layer under conditions of pressing speed of 30 mm/min, peeling speed of 120 mm/min, load of 196 g, pressing time of 5.0 sec, pulling distance of 5 mm, probe heating of 40° C. and sheet stage heating of 40° C.

US Pat. No. 10,025,184

PHOTOCURABLE RESIN COMPOSITION AND PRODUCTION METHOD OF IMAGE DISPLAY DEVICE

DEXERIALS CORPORATION, T...

1. A liquid photocurable resin composition comprising the following components (A) to (C):Component (A) a (meth)acrylate oligomer component;
Component (B) an alkyl (meth)acrylate monomer component; and
Component (C) a photopolymerization initiator component, wherein
the (meth)acrylate oligomer component as the component (A) contains at least one oligomer selected from the group consisting of a polyurethane (meth)acrylate oligomer, a polyisoprene (meth)acrylate oligomer, a polybutadiene (meth)acrylate oligomer, and a polyether (meth)acrylate oligomer that have a weight average molecular weight of 1,000 to 200,000,
the photopolymerization initiator as the component (C) contains a molecule cleavage-type photoradical polymerization initiator and a hydrogen-abstracting photoradical polymerization initiator at a ratio by mass of 10:1 to 10:35, and
a cured resin that is obtained by photoradical polymerization by irradiation of the photocurable resin composition with ultraviolet rays in the air has a glass transition temperature of ?40 to 20° C. when it is cured at a curing ratio of the outermost surface of more than 90%.

US Pat. No. 10,008,999

CONTROL DEVICE FOR VARIABLE CAPACITANCE DEVICE AND COMMUNICATION DEVICE INCLUDING SAID CONTROL DEVICE

TAIYO YUDEN CO., LTD., T...

2. A control device comprising: a variable capacitance device; and a control unit configured to apply a control voltage with a first polarity to the variable capacitance device during a third period including a first period to perform communication using the variable capacitance device and a second period not to perform communication before the first period, and configured to apply a control voltage with a second polarity opposite to the first polarity to the variable capacitance device during a sixth period including a fourth period to perform communication and a fifth period not to perform communication before the fourth period,wherein the third period further includes one or more seventh periods to perform the communication, and the sixth period further includes one or more eighth periods to perform the communication.

US Pat. No. 9,960,138

CONNECTION BODY

DEXERIALS CORPORATION, T...

1. A connection body comprising:a circuit substrate; and
an electronic component connected onto the circuit substrate via an anisotropic conductive adhesive agent;
wherein the circuit substrate has substrate electrodes formed thereon and the electronic component has electrode terminals formed thereon, both of which having stepped sections formed on respective edge-side areas;
wherein conductive particles contained by the anisotropic conductive adhesive agent are sandwiched between main surfaces of the substrate electrodes and the electrode terminals; and
wherein the conductive particles and each of the stepped sections of the substrate electrodes and the electrode terminals satisfy the following formula (1):
a+b+c?0.8D  (1)
wherein a is a height of the stepped section of the electrode terminals, b is a height of the stepped section of the substrate electrodes, c is a gap distance between each of the stepped sections and D is a diameter of the conductive particles.

US Pat. No. 9,899,179

SHORT-CIRCUIT ELEMENT AND A CIRCUIT USING THE SAME

DEXERIALS CORPORATION, T...

1. A short-circuit element comprising:
an insulating substrate;
a first and a second heat-generating resistors formed on the insulating substrate;
a first and a second electrodes arranged adjacently to each other on the insulating substrate;
a third electrode arranged adjacently to the first electrode on the insulating substrate and electrically connected to the
first heat-generating resistor;

a fourth electrode arranged adjacently to the second electrode on the insulating substrate and electrically connected to the
second heat-generating resistor;

a fifth electrode arranged adjacently to the fourth electrode;
a first meltable conductor arranged between the first and third electrodes to constitute a current path capable of being blown
by a heat generated by the first heat-generating resistor; and

a second meltable conductor arranged between the second and fifth electrodes through the fourth electrode to constitute a
current path, in which the current path between the second and fourth electrodes and between the fourth and fifth electrodes
are capable of being blown by a heat generated by the second heat-generating resistor,

wherein the first and second meltable conductors are melted by the heat from the first and second heat-generating resistors
and gather on the first and second electrodes to short-circuit the first and second electrodes.

US Pat. No. 9,803,138

FLUORESCENT SUBSTANCE AND PRODUCTION METHOD THEREOF

DEXERIALS CORPORATION, T...

1. A fluorescent substance, represented by the following general formula (1):
Ca1-x(SeyS1-y):Eux  (1)

where y is a value in the range of 0.5 to 1 and x=0.0001 to 0.1,
wherein an absolute value of a difference between an optimal value (nm) of an emission peak wavelength corresponding to the
value of y, and a measured value (nm) of the emission peak wavelength is 5 nm or less, and

wherein an absolute value of a difference between an optimal value (nm) of a full width at half maximum of emission corresponding
to the value of y, and a measured value (nm) of the full width at half maximum of emission is 6 nm or less.

US Pat. No. 9,752,058

ELECTRICALLY CONDUCTIVE ADHESIVE AGENT, AND METHOD FOR CONNECTING ELECTRONIC COMPONENT

DEXERIALS CORPORATION, T...

1. An electrically conductive adhesive agent, comprising a polymerizable acrylic compound, an organic peroxide, and solder
particles,
wherein the above-mentioned organic peroxide has a one minute half-life temperature lower by more than 0 degrees C. and not
more than 20 degrees C. than a solidus temperature of the above-mentioned solder particles.

US Pat. No. 10,368,449

ANISOTROPIC CONDUCTIVE FILM AND METHOD OF PRODUCING THE SAME

DEXERIALS CORPORATION, T...

1. An anisotropic conductive film comprising:a conductive particle-containing layer including coated conductive particles that are coated with a thermoplastic resin while arranged in a single layer, wherein the coated conductive particles form conductive particle groups with a regular pattern and any conductive particle group is apart from other conductive particle groups; and
an insulating resin layer laminated onto the conductive particle-containing layer.

US Pat. No. 10,141,017

LUBRICANT FOR MAGNETIC RECORDING MEDIUM, AND MAGNETIC RECORDING MEDIUM

Dexerials Corporation, T...

1. A lubricant for a magnetic recording medium, comprising:an ionic liquid including a Bronsted acid and a Bronsted base that is primary amine as constituents of the ionic liquid,
wherein the Bronsted acid includes a fluorine-containing chain,
wherein the Bronsted base includes a fluorine-containing chain that is a perfluoroalkyl chain or a perfluoropolyether chain,
wherein the fluorine-containing chain in the Bronsted acid is a perfluoropolyether chain or the fluorine-containing chain in the Bronsted base is the perfluoropolyether chain, or the fluorine-containing chain in the Bronsted acid is the perfluoropolyether chain and the fluorine-containing chain in the Bronsted base is the perfluoropolyether chain, and
wherein a number average molecular weight of the fluorine-containing chain in the Bronsted acid is 1,500 or less.

US Pat. No. 10,032,583

PROTECTIVE CIRCUIT SUBSTRATE

DEXERIALS CORPORATION, T...

1. A protective circuit substrate having a circuit substrate and a protective element mounted on the circuit substrate, the protective element comprising:an insulating substrate;
a heat-generating element formed on the insulating substrate;
a first and a second electrodes laminated on the insulating substrate;
a first connecting terminal provided on one side edge of a mounting surface of the insulating substrate to be mounted to the circuit substrate, the first connecting terminal being continuous with the first electrode;
a second connecting terminal provided on another side edge of the mounting surface, the second connecting terminal being continuous with the second electrode;
a heat-generating element extracting electrode provided in a current path between the first and second electrodes and electrically connected to the heat-generating element; and
a meltable conductor laminated on a region extending from the heat-generating element extracting electrode to the first and second electrodes and for interrupting the current path between the first electrode and the second electrode by being melted by heat;
wherein the circuit substrate includes a mounting region for mounting the protective element in which no electrode pattern other than a connecting electrode to the protective element is provided beneath the protective element,
wherein the circuit substrate has a first connecting electrode and a second connecting electrode respectively connected to the first and second connecting terminals,
wherein, outside a mounting region where the protective element is mounted, the first and second connecting electrodes have a first width equal to or wider than a width of the side edges of the insulating substrate on which the first and second connecting terminals are provided and, inside the mounting region, the first and second connecting electrodes have a second width narrower than the width of the side edges of the insulating substrate on which the first and second connecting terminals are provided.

US Pat. No. 10,012,453

THERMALLY CONDUCTIVE SHEET AND METHOD FOR PRODUCING THERMALLY CONDUCTIVE SHEET

Dexerials Corporation, T...

1. A thermally conductive sheet comprising:a curable resin composition;
thermally conductive fibers; and
thermally conductive particles,
wherein an L* value in a L*a*b* color system of a surface of the thermally conductive sheet is 29 or more and 47 or less.

US Pat. No. 9,964,670

INORGANIC OPTICAL ELEMENT HAVING A BIREFRINGENT FILM WITH A COLUMNAR STRUCTURE AND A PROTECTIVE FILM FORMED THEREON AND METHOD FOR MANUFACTURING SAME

DEXERIALS CORPORATION, S...

1. An inorganic optical element, comprising:a birefringent film having a columnar structure; and
a protective film formed on the birefringent film,
wherein a component of the protective film enters a gap in the columnar structure of the birefringent film, and
wherein the inorganic optical element is consisting of inorganic materials.

US Pat. No. 9,952,368

POLARIZATION CONVERSION ELEMENT AND OPTICAL DEVICE

DEXERIALS CORPORATION, S...

1. A polarization conversion element comprising:a polarizing beam splitter array in which first light-transmitting members each having a polarization separation layer for transmitting one of a P wave and a S wave and reflecting the other of a P wave and a S wave, and second light-transmitting members each having a reflecting layer for reflecting the other of the P wave and the S wave reflected by the polarization separation layer are alternately bonded to each other through a first adhesive layer composed of a silicone-based adhesive, the other of the P wave and the S wave incident on an incident surface and reflected by the polarization separation layer being reflected by the reflecting layer to an outgoing surface; and
an inorganic ½ wavelength plate that is provided selectively on the outgoing surface of the polarizing beam splitter array and that comprises an obliquely deposited layer for converting the one of the P-wave and the S-wave transmitted through the polarization separation layer, to the other of the P wave and the S wave, the obliquely deposited layer composed of a dielectric material,
wherein the obliquely deposited layer is a flat layer,
wherein a side surface of the obliquely deposited layer is coated with a protecting film composed of a silicone-based adhesive, and
wherein a side surface of the inorganic ½ wavelength plate is coated with the protecting film in a thickness direction thereof, and a top surface of the inorganic ½ wavelength plate is not coated with the protecting film.

US Pat. No. 9,891,404

POLYMER DEVICE, METHOD OF MANUFACTURING THE SAME, LENSE MODULE, AND IMAGING UNIT

DEXERIALS CORPORATION, T...

1. A polymer device comprising:
a pair of electrode layers;
a polymer layer inserted between the pair of electrode layers; and
an expansion-contraction suppression layer arranged between the pair of electrode layers, the expansion-contraction suppression
layer being arranged away from the respective electrode layers, and the expansion-contraction suppression layer being configured
to suppress expansion and contraction of the polymer layer,

wherein a thickness of the expansion-contraction suppression layer is one third or less of a laminated structure including
the polymer layer and the expansion-contraction suppression layer and a distance from the expansion-contraction suppression
layer to at least one of the pair of electrode layers is equal to or larger than 10 ?m.

US Pat. No. 9,890,471

METHOD FOR PRODUCING GALLIUM NITRIDE CRYSTAL BY REACTING METAL GALLIUM AND IRON NITRIDE

DEXERIALS CORPORATION, T...

1. A method for producing a gallium nitride crystal, the method comprising:
heating metal gallium and iron nitride in a nitrogen atmosphere at least to a reaction temperature at which the metal gallium
and the iron nitride react,

wherein a proportion of a number of moles of an iron element in the iron nitride to a total number of moles of the metal gallium
and the iron element in the iron nitride is equal to or more than 0.1% and equal to or less than 30.8%.

US Pat. No. 10,139,524

ANTI-REFLECTIVE STRUCTURE AND METHOD FOR DESIGNING SAME

DEXERIALS CORPORATION, T...

1. A method for minimizing a chroma (?(a*2+b*2)) of reflected light from an anti-reflective structure with respect to white light, the anti-reflective structure comprising a plurality of nanostructures that are formed of projected portions on a substrate surface and provided at intervals equal to or less than a visible light wavelength, the method comprising:determining a minimum of the chroma (?(a*2+b*2)) based on a filling rate of the nanostructures and a predetermined average height of the nanostructures; and
forming the plurality of nanostructures such that the filling rate is within a range of ±5% of the filling rate at which the minimum chroma value is achieved at the predetermined height, wherein
the filling rate is a ratio of an area of a bottom surface of the nanostructures to an area of the substrate surface in a plan view of the anti-reflective structure.

US Pat. No. 9,991,599

ANTENNA DEVICE, ELECTRONIC APPARATUS, AND METHOD OF MOUNTING ANTENNA DEVICE

Dexerials Corporation, S...

1. An antenna device to be incorporated in an electronic apparatus, the antenna device comprising:an antenna substrate including an antenna coil portion having an antenna coil formed therein, a component portion, and a bending portion arranged along a first direction, the bending portion being sandwiched between the antenna coil portion and the component portion, wherein
on each of a front surface and a back surface of the component portion, a circuit structure including an I/O interface for connecting electrically to a mainboard of the electronic apparatus is located;
the antenna substrate is bendable at the bending portion, and
the circuit structure located on the front surface of the component portion has the same structure as the circuit structure located on the back surface of the component portion.

US Pat. No. 9,885,900

RESIN COMPOSITION AND DISPLAY UNIT

DEXERIALS CORPORATION, T...

1. An image display unit comprising:
an image display part;
a light-transmitting protective part arranged on the image display part; and
a cured resin layer arranged between the image display part and the protective part,wherein:
the cured resin layer is formed from a resin composition that has a cure shrinkage of 5% or less,
the cured resin layer has a transmittance of 90% or higher in the visible range, and a storage modulus at 25° C. of 1×107
Pa or less, and

the resin composition comprises:
at least one polymer comprising either a butadiene polymer or a hydrogenated terpene resin,
at least one acrylate monomer, and
a photopolymerization initiator comprising 1-hydroxy-cyclohexyl-phenyl ketone together with a photopolymerization initiator
for visible-range.