US Pat. No. 9,244,294

THERMOCHROMATIC ELEMENT AND THERMOCHROMATIC DISPLAY DEVICE

Beijing FUNATE Innovation...

1. A thermochromatic element, comprising:
a sealed enclosure comprising an upper semitransparent sheet and a lower sheet opposite to the semitransparent upper sheet,
the sealed enclosure defining a chamber between the semitransparent upper sheet and the lower sheet;

a first transparent heating element located on the upper semitransparent sheet;
a second heating element located on the lower sheet; and
a colorful material layer located in the chamber, the first transparent heating element and the second heating element asynchronously
capable of heating the colorful material layer such that the colorful material layer will move between the first transparent
heating element and the second heating element in response to the heat produced by the first transparent heating element and
the second heating element;

wherein the first transparent heating element comprises a carbon nanotube film comprising:
a plurality of carbon nanotube linear units spaced from each other and substantially extending along a first direction, each
of the plurality of carbon nanotube linear units comprising a plurality of first carbon nanotubes substantially oriented along
the first direction; and

a plurality of carbon nanotube groups combined with the plurality of carbon nanotube linear units by van der Waals force,
the plurality of carbon nanotube groups between adjacent carbon nanotube linear units spaced from each other in the first
direction.

US Pat. No. 9,184,023

TRANSMISSION ELECTRON MICROSCOPE MICRO-GRID

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1. A transmission electron microscope (TEM) micro-grid comprising:
a support ring, wherein the supporting ring consists of a support body, a single through hole is defined by the support body,
a diameter of the through hole is about 3 mm, and a material of the support ring is ceramics; and

a sheet-shaped carbon nanotube structure configured to load a sample observed in a TEM, wherein the sheet-shaped carbon nanotube
structure having a peripheral edge secured on the support body, and other portion of the sheet-shaped carbon nanotube structure
is suspended above the single through hole.

US Pat. No. 9,321,637

DEVICES FOR ARRANGING CARBON NANOTUBE WIRES

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1. A device for arranging carbon nanotube wires comprising:
a supplying unit comprising a guiding axle, a supplying element, and a first motor, wherein the supplying element and the
first motor are separately located at two opposite ends of the guiding axle, the supplying element supplies at least one carbon
nanotube wire, and the first motor drives the supplying element reciprocating straightly along the guiding axle;

an arranging unit comprising a prism shaped supporter, a whirling arm, a driving mechanism, and two parallel supporters spaced
to each other, wherein the whirling arm is fixed on an axis of the prism shaped supporter, the prism shaped supporter is suspended
between the two parallel supporters by the whirling arm, the driving mechanism is located at one end of the whirling arm,
and the driving mechanism drives the prism shaped supporter rotating round the axis of the prism shaped supporter;

at least one planar substrate supported by the prism shaped supporter; and
a base, wherein the supplying unit and the arrangement unit are located on a surface of a base and spaced with each other,
and the guiding axle is parallel to the whirling arm.

US Pat. No. 9,471,164

DISPLAY DEVICE

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1. A display device comprising:
a liquid crystal display screen comprising:
a substrate having a first surface and a second surface opposite to the first surface; and
a first electrode located on the first surface of the substrate and comprising a plurality of first conductive bands having
a highest electrical conductivity in a first direction;

a transparent conductive layer located on the second surface of the substrate, wherein the transparent conductive layer comprises
a plurality of second conductive bands having a highest electrical conductivity in a second direction; and

a plurality of capacitances formed at intersections of the plurality of first conductive bands and the plurality of second
conductive bands;

wherein the liquid crystal display screen further comprises:
a first alignment layer located on the first electrode;
a thin film transistor panel spaced from the substrate and having a third surface facing the first surface of the substrate;
a second electrode located on the third surface of the thin film transistor panel;
a second alignment layer located on the second electrode;
a liquid crystal layer located between the first alignment layer and the second alignment layer;
a first polarizer located between the first electrode and the first alignment layer; and
a second polarizer located on a fourth surface of the thin film transistor panel opposite to the third surface.

US Pat. No. 9,323,077

THERMOCHROMATIC ELEMENT AND THERMOCHROMATIC DISPLAY DEVICE

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1. A thermochromatic element, comprising:
a sealed enclosure;
an isolation layer, received in the sealed enclosure, that divides the sealed enclosure into a first chamber and a second
chamber;

a first heating element located adjacent to the first chamber;
a thermochromatic material layer, located in the first chamber;
a second heating element located adjacent to the second chamber; and
an absorption layer, located in the second chamber;
wherein the first heating element comprises a carbon nanotube film comprising:
a plurality of carbon nanotube linear units spaced from each other and substantially extending along a first direction, and
each of the plurality of carbon nanotube linear units comprising a plurality of first carbon nanotubes substantially oriented
along the first direction; and

a plurality of carbon nanotube groups combined with the plurality of carbon nanotube linear units by van der Waals force,
and the plurality of carbon nanotube groups between adjacent carbon nanotube linear units are spaced from each other in the
first direction.

US Pat. No. 9,416,008

CARBON NANOTUBE FILM SUPPORTING STRUCTURE AND METHOD FOR USING SAME

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1. A carbon nanotube film supporting structure comprising:
two sub-supporting structures, each of the two sub-supporting structure comprising:
a substrate having a surface defining a support region; and
a plurality of protruding structures distributed on the support region; and
a carbon nanotube film structure secured by the support regions between the two sub-supporting structures and combined with
the plurality of protruding structures only by van der Waals force;

wherein, a ratio of a sum of a plurality of surface areas, defined by a top of the plurality of protruding structures away
from the substrate, to an area of the support region, is less than or equal to 20%.

US Pat. No. 9,299,478

CARBON NANOTUBE COMPOSITE FILM AND METHOD FOR MAKING THE SAME

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1. A carbon nanotube composite film, comprising:
a treated patterned carbon nanotube film comprising:
a plurality of carbon nanotube linear units spaced from each other, a distance between adjacent carbon nanotube linear units
is larger than 0.1 millimeters, and a shape of a cross-section of each carbon nanotube linear unit is a semi-circle, circle,
ellipse, or oblate, wherein each carbon nanotube linear unit comprises a plurality of carbon nanotubes joined end-to-end by
van der Waals force and substantially oriented along an axis direction of the each carbon nanotube linear unit, and the plurality
of carbon nanotube linear units are substantially parallel to each other and are aligned along a first direction; and

a plurality of carbon nanotube groups spaced from each other and combined with the plurality of carbon nanotube linear units,
wherein the carbon nanotube groups arranged along a second direction are separated from each other by the carbon nanotube
linear units, the second direction intersects the first direction; and

a polymer film having the treated patterned carbon nanotube film located therein.

US Pat. No. 9,304,630

TOUCH PANEL

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1. A touch panel comprising:
a first electrode plate comprising a first transparent conductive layer, wherein the first electrode plate further comprises
a first electrode located at a surface of the first transparent conductive layer and superposed with four sides of the first
conductive layer;

a second electrode plate comprising a second transparent conductive layer opposite to and spaced from the first transparent
conductive layer, the second transparent conductive layer having different resistivity along different directions, wherein
a first resistivity of the second transparent conductive layer along a first direction is larger than a second resistivity
along a second direction, that is substantially perpendicular with the first direction; the second electrode plate further
comprises a second electrode located at one end of the second transparent conductive layer and a plurality of detecting electrodes
located at another end of the second transparent conductive layer; the second electrode is linear and oriented substantially
along the first direction, each of the plurality detecting electrodes is block shaped; and the plurality of detecting electrodes
are arranged substantially along the first direction;

a capacitive detector electrically connected with the first transparent conductive layer to detect a capacitive signal between
the first transparent conductive layer and a touching object; and

a resistive touch panel detector electrically connected with the second transparent conductive layer to detect a voltage signal
between the first transparent conductive layer and the second transparent conductive layer, wherein the capacitive detector
and the resistive touch panel detector are selected to perform work in response to force applied on the first electrode plate.

US Pat. No. 9,239,474

THERMOCHROMATIC ELEMENT AND THERMOCHROMATIC DISPLAY APPARATUS

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1. A thermochromatic element, comprising: a color element and at least one heating element configured to supply heat for the
color element such that the color element changes color, the at least one heating element comprising at least one carbon nanotube
film comprising:
a plurality of carbon nanotube linear units spaced from each other and substantially extending along a first direction, and
each of the plurality of carbon nanotube linear units comprising a plurality of first carbon nanotubes that are substantially
oriented along the first direction; and

a plurality of carbon nanotube groups combined with the plurality of carbon nanotube linear units by van der Waals force,
and wherein the plurality of carbon nanotube groups between adjacent two of the plurality of carbon nanotube linear units
are spaced from each other in the first direction.

US Pat. No. 9,688,535

METHOD FOR USING CARBON NANOTUBE FILM SUPPORTING STRUCTURE

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1. A method for using a carbon nanotube film supporting structure comprising:
providing a carbon nanotube film supporting structure comprising:
a first sub-supporting structure comprising a first substrate and a plurality of first protruding structures, the first substrate
having a first surface defining a first support region, the plurality of first protruding structures distributed on the first
support region, a ratio of a sum of a plurality of first surface areas, defined by a top of the plurality of first protruding
structures, to an area of the first support region, is less than or equal to 20%; and

a second sub-supporting structure comprising a second substrate and a plurality of second protruding structures, the second
substrate having a second surface defining a second support region, the plurality of second protruding structures distributed
on the second support region; and

placing a carbon nanotube film structure on the first and second support regions between the first and second sub-supporting
structures; wherein the carbon nanotube film structure directly faces the first surface of the first substrate and the second
surface of the second substrate; and a hollow space is defined by the carbon nanotube film structure, the first substrate
and adjacent first protruding structures, and a height of the hollow space is substantially a same as a height of the first
protruding structures.

US Pat. No. 9,471,160

MOUSE PADS AND METHOD FOR USING THE SAME

Beijing FUNATE Innovation...

1. A method for using a mouse pad, the mouse pad comprising a touch panel comprising a touch surface, the method comprising
steps of:
simultaneously obtaining five or more touch signals;
obtaining a touch point B (XB,YB) and a touch point C (XC,YC) from the five or more touch signals, the touch point B (XB,YB) having a minimum ordinate and the touch point C (XC,YC) having a maximum ordinate in the more than five touch signals; and

dividing the touch surface into only a first area and a second area according to the touch point B (XB,YB) and the touch point C (XC,YC) to form the first area as a left mouse button area for selecting an icon of an electronic device by clicking the first area,
and to form the second area as a right mouse button area for displaying a taskbar or a drop-down menu of the electronic device
by clicking within the second area;

wherein locations of the first area and the second area in the touch surface change with coordinates of the touch point B
(XB,YB) and the touch point C (XC,YC), and any area of the touch surface having an ordinate less than about YB+2/5(YC?YB), is defined as the first area; and any area of the touch surface having an ordinate greater than about YB+2/5 (YC?YB), is defined as the second area.

US Pat. No. 9,540,242

METHOD FOR MAKING CARBON NANOTUBE FILM

Beijing FUNATE Innovation...

1. A method for making a carbon nanotube film, comprising:
providing a carbon nanotube array;
drawing an original carbon nanotube film comprising a plurality of carbon nanotubes substantially joined end-to-end by van
der Waals force and oriented along a first direction from the carbon nanotube array;

suspending the original carbon nanotube film between the carbon nanotube array and a fixing element;
irradiating the original carbon nanotube film suspended between the carbon nanotube array and a fixing element along the first
direction to form a patterned carbon nanotube film, wherein a portion of the original carbon nanotube film which is irradiated
is completely removed, a plurality of through holes are formed and arranged in a plurality of rows in the first direction,
each row comprises at least two spaced though holes, a shape of each of the plurality of through holes is rectangular, and
each of the plurality of through holes extends along the first direction; a length of each through hole along the first direction
is defined as parameter A, a width of each through hole in is defined as parameter B, a first space between adjacent through
holes along the first direction is defined as parameter C, a second space between adjacent through holes at adjacent two rows
is defined as parameter D, A ranges from 1 millimeter to 3 millimeters, B ranges from 0.1 millimeters to 1 millimeter, C ranges
from 1 millimeter to 2.5 millimeters, and D range from 0.6 millimeters to 1 millimeter; a first ratio of the parameter B to
the parameter D is less than or equal to 2, and a second ratio of the parameter A to the parameter C is greater than or equal
to 0.5; and

applying a solvent on the patterned carbon nanotube film suspended between the carbon nanotube array and a fixing element
to shrink the suspended patterned carbon nanotube film into the carbon nanotube film comprising a plurality of spaced and
parallel carbon nanotube linear units and a plurality of carbon nanotube groups, and the plurality of carbon nanotube groups
are joined with the plurality of carbon nanotube linear units by van der Waals force, and a ratio of a first area of the plurality
of carbon nanotubes to a second area of the plurality of through holes is less than or equal to 1:19.

US Pat. No. 9,810,929

THERMOCHROMATIC DISPLAY DEVICE

Beijing FUNATE Innovation...

1. A thermochromatic display device, comprising:
a first electrode sheet comprising a plurality of first row electrodes and a plurality of first line electrodes, the plurality
of first row electrodes intersect with the plurality of first line electrodes to form a plurality of first electrode cells;

a second electrode sheet facing the first electrode sheet and comprising a plurality of second row electrodes and a plurality
of second line electrodes, the plurality of second row electrodes intersect with the plurality of second line electrodes to
form a plurality of second electrode cells, the plurality of second electrode cells corresponding to the plurality of first
electrode cells in a one-by-one manner to form a plurality of display cells; and

a plurality of thermochromatic elements located in the plurality of display cells in a one-to-one manner and located between
the first electrode sheet and the second electrode sheet; each of the plurality of thermochromatic elements comprising:

a sealed enclosure comprising a semitransparent upper sheet and a lower sheet opposite to the semitransparent upper sheet,
the sealed enclosure defining a chamber between the semitransparent upper sheet and the lower sheet;

a first transparent heating element located on the semitransparent upper sheet and comprising a carbon nanotube film comprising:
a plurality of carbon nanotube linear units spaced from each other and substantially extending along a first direction, each
of the plurality of carbon nanotube linear units comprising a plurality of first carbon nanotubes substantially oriented along
the first direction; and

a plurality of carbon nanotube groups combined with the plurality of carbon nanotube linear units by van der Waals force,
the plurality of carbon nanotube groups between adjacent carbon nanotube linear units spaced from each other in the first
direction;

a second heating element located on the lower sheet; and
a colorful material layer located in the chamber, the first transparent heating element and the second heating element asynchronously
capable of heating the colorful material layer to make the colorful material layer move between the first transparent heating
element and the second heating element in response to the heat produced by the first transparent heating element and the second
heating element;

wherein in each of the plurality of thermochromatic elements, the first transparent heating element is electrically connected
with the one of the plurality of first row electrodes and one of the plurality of first line electrodes; and the second heating
element is electrically connected with the one of the plurality of second row electrodes and one of the plurality of second
line electrodes.

US Pat. No. 9,434,618

METHOD FOR MAKING CARBON NANTOUBE FILM

Beijing FUNATE Innovation...

1. A method comprising:
providing a carbon nanotube array;
drawing an original carbon nanotube film from the carbon nanotube array, wherein the original carbon nanotube film comprises
a plurality of carbon nanotube segments; and

soaking the plurality of carbon nanotube segments in the original carbon nanotube film with an atomized organic solvent at
least two times to form a plurality of shrunk carbon nanotube segments, and the plurality of shrunk carbon nanotube segments
are intercrossed into a carbon nanotube film with a network structure; wherein the atomized organic solvent comprises a plurality
of organic droplets with diameters of larger than 20 micrometers, and less than or equal to 100 micrometers.

US Pat. No. 9,057,892

THERMOCHROMATIC ELEMENT AND THERMOCHROMATIC DISPLAY DEVICE

Beijing FUNATE Innovation...

1. A thermochromatic element, comprising:
a sealed enclosure comprising an upper transparent sheet;
an isolation layer received in the sealed enclosure, that divides the sealed enclosure into a first chamber and a second chamber;
and the first chamber defined between the upper transparent sheet and the isolation layer;

a first heating element configured to heat the first chamber;
a second heating element configured to heat the second chamber; and
a colorful material layer located in the first chamber or the second chamber, wherein the colorful material layer is movable
between the first chamber and the second chamber in a gaseous state through the isolation layer,

wherein the first heating element comprises a carbon nanotube film comprising:
a plurality of carbon nanotube linear units spaced from each other and substantially extending along a first direction, and
each of the plurality of carbon nanotube linear units comprising a plurality of first carbon nanotubes that are substantially
oriented along the first direction; and

a plurality of carbon nanotube groups combined with the plurality of carbon nanotube linear units by van der Waals force,
and wherein the plurality of carbon nanotube groups between adjacent two of the plurality of carbon nanotube linear units
are spaced from each other in the first direction.

US Pat. No. 9,775,240

CARBON NANOTUBE COMPOSITE FILM

Beijing FUNATE Innovation...

1. A carbon nanotube composite film, comprising:
a treated patterned carbon nanotube film comprising:
a plurality of carbon nanotube linear units spaced from each other, a distance between adjacent carbon nanotube linear units
is larger than 0.1 millimeters, each of the plurality of carbon nanotube linear units comprises a plurality of carbon nanotubes
joined end-to-end by van der Waals force and substantially oriented along an axis direction of the each carbon nanotube linear
unit, a diameter of each carbon nanotube linear unit is greater than or equal to 5 micrometers, and less than or equal to
50 micrometers, and a shape of a cross-section of each carbon nanotube linear unit is a semi-circle, circle, ellipse, or oblate;
and

a plurality of carbon nanotube groups spaced from each other and combined with the plurality of carbon nanotube linear units;
and

a polymer material coated on surfaces of the plurality of carbon nanotube linear units and the plurality of carbon nanotube
groups.

US Pat. No. 9,702,747

MASS FLOWMETER HAVING TWISTED CARBON NANOTUBE COMPOSITE WIRE SENSING ELEMENTS

Beijing FUNATE Innovation...

1. A mass flowmeter comprising:
a detecting element;
a signal receiving element; and
a signal processing element;
wherein the detecting element, and the signal receiving element, and the signal processing element are electrically connected
with each other; the detecting element comprises a first sensing element and a second sensing element, each of the first sensing
element and the second sensing element comprise a carbon nanotube composite wire; the carbon nanotube composite wire comprises
a carbon nanotube wire and a metal layer; the carbon nanotube wire comprises a plurality of carbon nanotubes spirally arranged
along an axial direction of the carbon nanotube wire, a diameter of the carbon nanotube wire ranges from about 50 nanometers
to about 30 micrometers, a twist of the carbon nanotube wire ranges from about 10 r/cm to about 300 r/cm; and the metal layer
is coated on a surface of the carbon nanotube wire, and a thickness of the metal layer ranges from about 50 nanometers to
about 5 micrometers.

US Pat. No. 9,691,526

METHOD FOR MAKING CARBON NANOTUBE COMPOSITE FILM

Beijing FUNATE Innovation...

1. A method for making carbon nanotube composite film, comprising:
providing an original carbon nanotube film comprising a plurality of carbon nanotubes joined end to end by van der Waals attractive
force and substantially extending along a first direction, and the plurality of carbon nanotubes in the original carbon nanotube
film define a plurality of micropores;

forming a patterned carbon nanotube film by patterning the original carbon nanotube film to define a plurality of through
holes arranged into a plurality of rows of through holes in the original carbon nanotube film along the first direction, each
row of through holes comprising at least two spaced through holes, a space between two adjacent through holes is greater than
a size of one of the plurality of micropores in the original carbon nanotube film; the patterned carbon nanotube film comprises
a plurality of connecting parts and a plurality of extending parts both extending along the first direction, the plurality
of connecting parts is separated from each other by the plurality of though holes along the first direction, and the plurality
of extending parts is separated from each other by the plurality of connecting parts along a second direction crossed with
the first direction; the plurality of extending parts comprises a first portion of the plurality of carbon nanotubes; and
the plurality of connecting parts comprises a second portion of the plurality of carbon nanotubes; and

treating the patterned carbon nanotube film with a polymer solution comprising an organic solvent and a polymer material dissolved
in the organic solvent such that the plurality of extending parts is shrunk into a plurality of carbon nanotube linear units;
a pulling force is produced in a process shrinking of the plurality of extending parts, and an interfacial tension is produced
between the plurality of connecting parts and the organic solvent; and extending directions of the second portion of the plurality
of carbon nanotubes are shifted into directions intersecting so as to cross the first direction, by the pulling force and
the interfacial tension, to form a plurality of carbon nanotube groups; and the plurality of carbon nanotube groups comprises
the second portion of the plurality of carbon nanotubes intercrossed with each other.

US Pat. No. 9,570,208

CARBON NANOTUBE COMPOSITE WIRE

Beijing FUNATE Innovation...

1. A carbon nanotube composite wire comprising:
a carbon nanotube wire, comprising a plurality of carbon nanotubes spirally arranged along an axial direction of the carbon
nanotube wire;

a metal layer, coated on a surface of the carbon nanotube wire;
wherein a diameter of the carbon nanotube wire ranges from about 1 micrometer to about 30 micrometers, a twist of the carbon
nanotube wire ranges from about 10 t/cm to about 300 t/cm, and a thickness of the metal layer ranges from about 1 micrometer
to about 5 micrometers.

US Pat. No. 9,828,248

VARIABLE-DENSITY CARBON NANOTUBE FILM

Beijing FUNATE Innovation...

1. A variable-density carbon nanotube film comprising:
a plurality of round thin regions; and
at least one normal region comprising a plurality of carbon nanotubes substantially aligned along an aligned direction;
wherein the at least one normal region has a first carbon nanotube density, and the plurality of round thin regions has a
second carbon nanotube density; and the second carbon nanotube density in each of the plurality of round thin regions ranges
from about 50% to about 80% of the first carbon nanotube density, and the plurality of round thin regions are arranged along
the aligned direction.

US Pat. No. 9,744,492

AIR PURIFIER

Beijing FUNATE Innovation...

1. An air purifier comprising:
a shell comprising at least one air inlet and at least one air outlet, wherein an air passage is defined between the at least
one air inlet and the at least one air outlet;

a wind turbine located in the air passage; and
an air filter layer located in the air passage and comprising a filter screen,
wherein the air filter screen comprises a carbon nanotube structure comprising a plurality of carbon nanotube films stacked
and crossed with each other; each of the plurality of carbon nanotube films comprises a plurality of carbon nanotube wires,
and the plurality of carbon nanotube wires are braided or twisted together; and the carbon nanotube structure comprises a
plurality of micropores, a diameter of the plurality of micropores is ranged from about 1 micrometer to about 2.5 micrometers.

US Pat. No. 9,696,335

HOT WIRE ANEMOMETER HAVING TWISTED CARBON NANOTUBE COMPOSITE WIRE DETECTING ELEMENT

Beijing FUNATE Innovation...

1. A hot wire anemometer comprising:
a detecting element;
a signal enlarging element; and
a signal processing element;
wherein the detecting element, and the signal enlarging element and the signal processing element are electrically connected
to each other; the detecting element comprises a hot wire; the hot wire comprises a carbon nanotube composite wire; the carbon
nanotube composite wire comprises a carbon nanotube wire and a metal layer; the carbon nanotube wire comprises a plurality
of carbon nanotubes spirally arranged along an axial direction of the carbon nanotube wire, a diameter of the carbon nanotube
wire ranges from about 50 nanometers to about 30 micrometers, a twist of the carbon nanotube wire ranges from about 10 t/cm
to about 300 t/cm; and the metal layer is coated on a surface of the carbon nanotube wire, and a thickness of the metal layer
ranges from about 50 nanometers to about 5 micrometers.

US Pat. No. 9,960,141

BINDING WIRE AND SEMICONDUCTOR PACKAGE STRUCTURE USING THE SAME

Beijing FUNATE Innovation...

1. A semiconductor package structure comprising:a substrate comprising a plurality of conductive tracing wires;
a package preform comprising a semiconductor chip and a plurality of binding wires;
a shielding layer covering the package preform; and
a protective layer covering the shielding layer,
wherein the semiconductor chip comprises a plurality of welding spots, and the plurality of welding spots are electrically connected with the plurality of conductive tracing wires via the plurality of binding wires; each of the plurality of binding wires comprises a carbon nanotube composite wire, and the carbon nanotube composite wire comprises a carbon nanotube wire and a metal layer coated on an outer surface of the carbon nanotube wire; the carbon nanotube wire comprises a plurality of carbon nanotubes spirally arranged along an axial direction of the carbon nanotube wire; a metal layer thickness ranges from about 1 micron to about 5 microns, a diameter of the carbon nanotube wire ranges from about 25 microns to about 30 microns, and a twist of the carbon nanotube wire ranges from about 100 r/cm to about 150 r/cm.

US Pat. No. 9,817,435

CONDUCTIVE MESH AND TOUCH PANEL USING THE SAME

Beijing FUNATE Innovation...

1. A conductive mesh comprising:
a plurality of carbon nanotube composite wires, each of the plurality of carbon nanotube composite wires comprising:
a carbon nanotube wire; and
a metal layer coated on an outer surface of the carbon nanotube wire,
wherein the carbon nanotube wire comprises a plurality of carbon nanotubes spirally arranged along an axial direction of the
carbon nanotube wire, a diameter of the carbon nanotube wire ranges from 1 micron to 10 microns, a twist of the carbon nanotube
wire ranges from 10 r/cm to 300 r/cm, and a metal layer thickness ranges from 1 micron to 5 microns, when the metal layer
thickness ranges from 1 micron to 5 microns, a conductivity of the carbon nanotube composite wire reaches 50 percent or more
of a conductivity of the metal layer; when the metal layer thickness is less than 1 micron, the conductivity of the carbon
nanotube composite wire does not increase; when the metal layer thickness is larger than 5 microns, the metal layer is oxidized,
the conductivity of the carbon nanotube composite wire and a service life of the carbon nanotube composite wire are reduced.

US Pat. No. 9,643,849

CARBON NANOTUBE FILM SUPPORTING STRUCTURE

Beijing FUNATE Innovation...

1. A carbon nanotube film supporting structure comprising:
a first sub-supporting structure comprising:
a first substrate comprising a first surface defining a first support region;
a plurality of first protruding structures distributed on the first support region;
a second sub-supporting structure spaced with the first sub-supporting structure, the second sub-supporting structure comprising:
a second substrate comprising a second surface defining a second support region;
a plurality of second protruding structures distributed on the second support region; and
a carbon nanotube film structure located on the first and second support regions between the first and second sub-supporting
structures; wherein the carbon nanotube film structure directly faces the first surface of the first substrate and the second
surface of the second substrate; and a hollow space is defined by the carbon nanotube film structure, the first substrate
and adjacent first protruding structures, and a height of the hollow space is substantially a same as a height of the first
protruding structures;

wherein a ratio of a sum of a plurality of first surface areas, defined by a top of the plurality of first protruding structures
away from the first substrate, to an area of the first support region, is less than or equal to 20%.

US Pat. No. 10,213,857

WIRE CUTTING ELECTRODE AND WIRE CUTTING DEVICE USING THE SAME

Beijing FUNATE Innovation...

1. A wire cutting electrode comprising:a carbon nanotube composite wire, the carbon nanotube composite wire comprising:
a carbon nanotube wire comprising a plurality of carbon nanotubes spirally arranged along an axial direction of the carbon nanotube wire; and
a metal layer, coated on an outer surface of the carbon nanotube wire,
wherein a carbon nanotube composite wire tensile strain rate is less than or equal to 3%; a carbon nanotube wire twist ranges from 10 r/cm to 300 r/cm, and a carbon nanotube wire diameter ranges from 1 micrometer to 30 micrometers and a metal layer thickness ranges from 1 micrometer to 5 micrometers, and a conductivity of the carbon nanotube composite wire reaches at least 50 percent or more of a conductivity of the metal layer.

US Pat. No. 10,251,219

DEFROSTING GLASS, DEFROSTING LAMP AND VEHICLE USING THE SAME

Beijing FUNATE Innovation...

1. A defrosting glass, comprising:a glass substrate having a substrate surface;
at least one carbon nanotube composite wire deposed on the substrate surface;
at least one first electrode and at least one second electrode, spaced from each other, electrically connected with the at least one carbon nanotube composite wire; and
wherein each of the at least one carbon nanotube composite wire comprises a carbon nanotube wire and a metal layer made of metal or metal alloy; the carbon nanotube wire comprises a plurality of carbon nanotubes spirally arranged along an axial direction of the carbon nanotube wire, a diameter of the carbon nanotube wire ranges from 1 micrometer to 30 micrometers, and a twist of the carbon nanotube wire ranges from 250 t/cm to 300 t/cm; and the metal layer is coated on a carbon nanotube wire surface of the carbon nanotube wire, and a thickness of the metal layer ranges from 1 micrometer to 5 micrometers.