Graphene Products ()
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Graphene Oxide Powder
Gimprovia™ Gi-PW-B040

The Gimprovia™ Gi-PW-B040 is comprised of few-layer graphene oxide platelets with a thickness of 2-3 nm and a lateral dimension of approximately 7 um. The carbon content of this product is 60%-80% with an oxygen content is about 46%. This graphene oxide is ideal for applications where a high degree of functionality is required on the graphene platelet. The large percentage of oxygen may result in better dispersion in a number of aqueous and non-aqueous media. The Gimprovia™ Gi-PW-B040 can be reduced in applications where electrical or thermal conductivity is required via several standard methods.

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Graphene Powder
Gimprovia™ Gi-PW-B050

The Gimprovia™ Gi-PW-B050 is comprised of graphene platelets which less than 3 layers. The max length of width is 10 um. The carbon content of this product is over 95.0%, and an oxygen content is less than 2.5%.

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Graphene Powder
Gimprovia™ Gi-PW-F030

The Gimprovia™ Gi-PW-F030 is the graphene powder with thickness about 10~20nm, and width is 5 um. The carbon content of this product is over 99.0%, and an oxygen content is less than 0.5%.

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Graphene Powder
Gimprovia™ Gi-PW-F031

The Gimprovia™ Gi-PW-F031 is the graphene powder which the carbon content of this product is over 99.0%, and an oxygen content is less than 0.5%.
It is suitable for isolation film, conductive composite materials, nano-composite materials, thermal radiation, conductive ink, conductive rubber, conductive adhesive.

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Graphene Oxide Paste
Gimprovia™ Gi-SC-B026

The Gimprovia™ Gi-SC-B026 is a solution of graphene oxide dispersed in water at 3.0% concentration, or 30.0 g/ L. The average z-dimension (thickness) of the materials is ~1-1.2 nm. The x-y dimensions are, at most, 554 nm and the carbon content is ~46.0% carbon.
This product is suitable for barriers, transparent electrodes, nano composites, capacitors, and biological/medical applications.

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Graphene Thermal Grease
Gebocta™ Ge-TH-G040

Gebocta™ Ge-TH-G040 is combined with the most advanced nano technology and graphene materials. It is suit for high-performance processors, graphics cards, chipsets or LED and other products, to provide users with the best experience.
This product is not containing silicone formula.

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Graphene Thermal Grease
Gebocta™ Ge-TH-G042

Gebocta™ Ge-TH-G042 is combined with the most advanced nano technology and graphene materials. It is suit for high-performance processors, graphics cards, chipsets or LED and other products, to provide users with the best experience.
This product is not containing silicone formula.

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Graphene Conductive Solution
Gebocta™ Ge-EL-CXG0

Gebocta™ Ge-EL-CXG0 is based on the high conductive of graphene which developed for conductive paint/paste. With excellent conductivity, and high transmittance and other characteristics, it can be coated on glass, PET and other material interface. It can be applied to transparent conductive, anti-static coating and other purposes.

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Graphene Conductive Solution
Gebocta™ Ge-EL-CXH0

Gebocta™ Ge-EL-CXH0 is based on the high conductive of graphene which developed for conductive paint/paste. With excellent conductivity, and high transmittance and other characteristics, it can be coated on glass, PET and other material interface. It can be applied to transparent conductive, anti-static coating and other purposes.

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Graphene Conductive Solution
Gebocta™ Ge-EL-CYH0

Gebocta™ Ge-EL-CYH0 is based on the high conductive of graphene which developed for conductive paint/paste. With excellent conductivity, and high transmittance and other characteristics, it can be coated on glass, PET and other material interface. It can be applied to transparent conductive, anti-static coating and other purposes.

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Graphene Conductive Solution
Gebocta™ Ge-EL-CYK0

Gebocta™ Ge-EL-CYK0 is based on the high conductive of graphene which developed for conductive paint/paste. With excellent conductivity, and high transmittance and other characteristics, it can be coated on glass, PET and other material interface. It can be applied to transparent conductive, anti-static coating and other purposes.

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Graphene Conductive Solution
Gebocta™ Ge-EL-CYI0

Gebocta™ Ge-EL-CYI0 is based on the high conductive of graphene which developed for conductive paint/paste. With excellent conductivity, and high transmittance and other characteristics, it can be coated on glass, PET and other material interface. It can be applied to transparent conductive, anti-static coating and other purposes.

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Graphene Conductive Paste
Gebocta™ Ge-EL-PC10

Gebocta™ Ge-EL-PC10 is based on the high conductive of graphene which developed for conductive paint/paste. With excellent conductivity, and high transmittance and other characteristics, it can be coated for the circuit of PCB or other substrate.

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Graphene EMI Shielding Paste
Gebocta™ Ge-EL-SPE0

Gebocta™ Ge-EL-SPE0 is graphene EMI shielding paint which is developed by TGC’s exclusive dispersion technology. It’s EMI shielding property is suitable for electronic components packaging dispensing, and precision instrument case. And it is also blocking water and rust. 。

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Modified Graphene Powder (For Rubber)
Gebocta™ Ge-MW-B020

Gebocta™ Ge-MW-B020 is the modified graphene powder for rubber, it can be enhance the properties such as thermal, mechanical strength and other characteristics.

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Graphene/LDPE Masterbatch
Gebocta™ Ge-CM-Q010

The mechanical strength of Gebocta™ Ge-CM-Q010 is better than polyethylene(PE) products. It is suitable for high-strength demand for packaging materials, plastic products and medical equipment.

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Graphene/HDPE Masterbatch
Gebocta™ Ge-CM-Q021

The mechanical strength of Gebocta™ Ge-CM-Q021 is better than polyethylene(PE) products. It is suitable for high-strength demand for packaging materials, plastic products and medical equipment.

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Graphene/ABS/PC Masterbatch
Gebocta™ Ge-CM-D010

By adding the graphene in ABS / PC plastics, it would enhance its properties such as thermal, mechanical strength and conductive properties. It is more significant than original one, with its excellent physical properties.

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Graphene/Nylon Masterbatch
Gebocta™ Ge-CM-N010

Gebocta™ Ge-CM series is based on different applications with different specifications of graphene. The injection grade masterbatch evenly premixed, through the precision temperature control of the twin-screw extruder made of granulation. The mechanical strength of Gebocta™ Ge-CM-N010 is better than Nylon products. It is suitable for high-strength demand for electronic device parts, auto parts.

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Graphene/PET Masterbatch
Gebocta™ Ge-CM-P010

By adding the graphene in PET plastics, it would enhance its properties such as thermal, mechanical strength and conductive properties. It is more significant than original one, with its excellent physical properties.

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Graphene/Rubber Composites Paste
Gebocta™ Ge-CP-R021

High content of graphene- TDAE

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Graphene Thermal Paste
Gebocta™ Ge-TH-P010

The graphene thermal paste is designed for coating on the surface of the product, which could increasing the efficiency of the thermal radiation. For its superior adhesion and processing characteristics, can be applied to a wide range of surfaces.

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Graphene Thermal Paste
Gebocta™ Ge-TH-P020

The graphene thermal paste is designed for coating on the surface of the product, which could increasing the efficiency of the thermal radiation. For its superior adhesion and processing characteristics, can be applied to a wide range of surfaces.

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Graphene Thermal Paint
Gebocta™ Ge-TH-N010

The graphene thermal paint is designed for coating on the surface of the product, which could increasing the efficiency of the thermal radiation. For its superior adhesion and processing characteristics, can be applied to a wide range of surfaces.

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Graphene Thermal Paint
Gebocta™ Ge-TH-N020

The graphene thermal paint is designed for coating on the surface of the product, which could increasing the efficiency of the thermal radiation. For its superior adhesion and processing characteristics, can be applied to a wide range of surfaces.

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Solvent Based Graphene Epoxy Anti-Corrosion Paste
Gebocta™ Ge-AC-OE11

Graphene nano platelets forms a good barrier to keep out corrosion facts. Also, the hardness properties of graphene reduce the flecture of coating. Thus, both primer and metal can be protected.

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Non-solvent Graphene Epoxy Anti-Corrosion Paste
Gebocta™ Ge-AC-OE20

Graphene enhences the mechanicle strength and adhesion of coating, so the coating will not be peeled off easily. In addition, graphene reduces the surface energy of coating to prevent the adhesion of algae and microorganism.

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Graphene Epoxy Anti-Corrosion Primer
Gebocta™ Ge-AC-OE30

Conductive graphene primer interacts with metal to form a barrier which blocks corrosion. Anti-corrosion will be more efficient when the graphene primer is used with our graphene mid-coatings.

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Zinc-Graphene Anti-Corrosion Primer (Gray)
Gebocta™ Ge-AC-OE40

The addition of graphene reduces the amount of zinc in zinc-rich epoxy coatings. Graphene and small amount of zinc form a good anti-corrosion network; therefore, the sacrificed material, zinc, can protect facilities in a good way. Also, the reducing amount of zinc makes processing save.

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Zinc-Graphene Anti-Corrosion Primer (Black)
Gebocta™ Ge-AC-OE41

The addition of graphene reduces the amount of zinc in zinc-rich epoxy coatings. Graphene and small amount of zinc form a good anti-corrosion network; therefore, the sacrificed material, zinc, can protect facilities in a good way. Also, the reducing amount of zinc makes processing save.

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Graphene Heat Spreader
AT™ AT1500-50

AT™ Graphene heat spreaders are designed specifically for applications where an electrically and thermally conductive sheet is required. They meet the demand for effective thermal management in today’s compact, multi-functional electronic devices. The AT1500 standard series of heat spreaders includes many thickness options of 50,60,65,75,85… and up to 100 μm. With exceptional thermal and electrical conductivity, our foil is ideal for the thermal management of electronics and other devices.

We can also be able to customize the sheet properties to meet the needs of numerous applications. We are able to produce sheets with thicknesses from 5 to 300 μm and with thermal conductivity from 1,200 to 1,500 W/mK.

The main characteristics are very light and thin, 30% lighter than aluminum, and even 80% lighter than copper.
The extremely high thermal conductivity, the thermal conductivity is about 400% of copper, and it is 700% of aluminum.
It can be applied to any curved surface.

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Graphene Heat Spreader
AT™ AT1500-60

AT™ Graphene heat spreaders are designed specifically for applications where an electrically and thermally conductive sheet is required. They meet the demand for effective thermal management in today’s compact, multi-functional electronic devices. The AT1500 standard series of heat spreaders includes many thickness options of 50,60,65,75,85… and up to 100 μm. With exceptional thermal and electrical conductivity, our foil is ideal for the thermal management of electronics and other devices.

We can also be able to customize the sheet properties to meet the needs of numerous applications. We are able to produce sheets with thicknesses from 5 to 300 μm and with thermal conductivity from 1,200 to 1,500 W/mK.

The main characteristics are very light and thin, 30% lighter than aluminum, and even 80% lighter than copper.
The extremely high thermal conductivity, the thermal conductivity is about 400% of copper, and it is 700% of aluminum.
It can be applied to any curved surface.

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Graphene Heat Spreader
AT™ AT1500-65

AT™ Graphene heat spreaders are designed specifically for applications where an electrically and thermally conductive sheet is required. They meet the demand for effective thermal management in today’s compact, multi-functional electronic devices. The AT1500 standard series of heat spreaders includes many thickness options of 50,60,65,75,85… and up to 100 μm. With exceptional thermal and electrical conductivity, our foil is ideal for the thermal management of electronics and other devices.

We can also be able to customize the sheet properties to meet the needs of numerous applications. We are able to produce sheets with thicknesses from 5 to 300 μm and with thermal conductivity from 1,200 to 1,500 W/mK.

The main characteristics are very light and thin, 30% lighter than aluminum, and even 80% lighter than copper.
The extremely high thermal conductivity, the thermal conductivity is about 400% of copper, and it is 700% of aluminum.
It can be applied to any curved surface.

Already in Comparing Table
Graphene Heat Spreader
AT™ AT1500-70

AT™ Graphene heat spreaders are designed specifically for applications where an electrically and thermally conductive sheet is required. They meet the demand for effective thermal management in today’s compact, multi-functional electronic devices. The AT1500 standard series of heat spreaders includes many thickness options of 50,60,65,75,85… and up to 100 μm. With exceptional thermal and electrical conductivity, our foil is ideal for the thermal management of electronics and other devices.

We can also be able to customize the sheet properties to meet the needs of numerous applications. We are able to produce sheets with thicknesses from 5 to 300 μm and with thermal conductivity from 1,200 to 1,500 W/mK.

The main characteristics are very light and thin, 30% lighter than aluminum, and even 80% lighter than copper.
The extremely high thermal conductivity, the thermal conductivity is about 400% of copper, and it is 700% of aluminum.
It can be applied to any curved surface.

Already in Comparing Table
Graphene Heat Spreader
AT™ AT1500-75

AT™ Graphene heat spreaders are designed specifically for applications where an electrically and thermally conductive sheet is required. They meet the demand for effective thermal management in today’s compact, multi-functional electronic devices. The AT1500 standard series of heat spreaders includes many thickness options of 50,60,65,75,85… and up to 100 μm. With exceptional thermal and electrical conductivity, our foil is ideal for the thermal management of electronics and other devices.

We can also be able to customize the sheet properties to meet the needs of numerous applications. We are able to produce sheets with thicknesses from 5 to 300 μm and with thermal conductivity from 1,200 to 1,500 W/mK.

The main characteristics are very light and thin, 30% lighter than aluminum, and even 80% lighter than copper.
The extremely high thermal conductivity, the thermal conductivity is about 400% of copper, and it is 700% of aluminum.
It can be applied to any curved surface.

Already in Comparing Table
Graphene Heat Spreader
AT™ AT1500-80

AT™ Graphene heat spreaders are designed specifically for applications where an electrically and thermally conductive sheet is required. They meet the demand for effective thermal management in today’s compact, multi-functional electronic devices. The AT1500 standard series of heat spreaders includes many thickness options of 50,60,65,75,85… and up to 100 μm. With exceptional thermal and electrical conductivity, our foil is ideal for the thermal management of electronics and other devices.

We can also be able to customize the sheet properties to meet the needs of numerous applications. We are able to produce sheets with thicknesses from 5 to 300 μm and with thermal conductivity from 1,200 to 1,500 W/mK.

The main characteristics are very light and thin, 30% lighter than aluminum, and even 80% lighter than copper.
The extremely high thermal conductivity, the thermal conductivity is about 400% of copper, and it is 700% of aluminum.
It can be applied to any curved surface.

Already in Comparing Table
Graphene Heat Spreader
AT™ AT1500-85

AT™ Graphene heat spreaders are designed specifically for applications where an electrically and thermally conductive sheet is required. They meet the demand for effective thermal management in today’s compact, multi-functional electronic devices. The AT1500 standard series of heat spreaders includes many thickness options of 50,60,65,75,85… and up to 100 μm. With exceptional thermal and electrical conductivity, our foil is ideal for the thermal management of electronics and other devices.

We can also be able to customize the sheet properties to meet the needs of numerous applications. We are able to produce sheets with thicknesses from 5 to 300 μm and with thermal conductivity from 1,200 to 1,500 W/mK.

The main characteristics are very light and thin, 30% lighter than aluminum, and even 80% lighter than copper.
The extremely high thermal conductivity, the thermal conductivity is about 400% of copper, and it is 700% of aluminum.
It can be applied to any curved surface.

Already in Comparing Table
Graphene Heat Spreader
AT™ AT1500-90

AT™ Graphene heat spreaders are designed specifically for applications where an electrically and thermally conductive sheet is required. They meet the demand for effective thermal management in today’s compact, multi-functional electronic devices. The AT1500 standard series of heat spreaders includes many thickness options of 50,60,65,75,85… and up to 100 μm. With exceptional thermal and electrical conductivity, our foil is ideal for the thermal management of electronics and other devices.

We can also be able to customize the sheet properties to meet the needs of numerous applications. We are able to produce sheets with thicknesses from 5 to 300 μm and with thermal conductivity from 1,200 to 1,500 W/mK.

The main characteristics are very light and thin, 30% lighter than aluminum, and even 80% lighter than copper.
The extremely high thermal conductivity, the thermal conductivity is about 400% of copper, and it is 700% of aluminum.
It can be applied to any curved surface.

Already in Comparing Table
Graphene Heat Spreader
AT™ AT1500-95

AT™ Graphene heat spreaders are designed specifically for applications where an electrically and thermally conductive sheet is required. They meet the demand for effective thermal management in today’s compact, multi-functional electronic devices. The AT1500 standard series of heat spreaders includes many thickness options of 50,60,65,75,85… and up to 100 μm. With exceptional thermal and electrical conductivity, our foil is ideal for the thermal management of electronics and other devices.

We can also be able to customize the sheet properties to meet the needs of numerous applications. We are able to produce sheets with thicknesses from 5 to 300 μm and with thermal conductivity from 1,200 to 1,500 W/mK.

The main characteristics are very light and thin, 30% lighter than aluminum, and even 80% lighter than copper.
The extremely high thermal conductivity, the thermal conductivity is about 400% of copper, and it is 700% of aluminum.
It can be applied to any curved surface.

Already in Comparing Table
Graphene Heat Spreader
AT™ AT1500-100

AT™ Graphene heat spreaders are designed specifically for applications where an electrically and thermally conductive sheet is required. They meet the demand for effective thermal management in today’s compact, multi-functional electronic devices. The AT1500 standard series of heat spreaders includes many thickness options of 50,60,65,75,85… and up to 100 μm. With exceptional thermal and electrical conductivity, our foil is ideal for the thermal management of electronics and other devices.

We can also be able to customize the sheet properties to meet the needs of numerous applications. We are able to produce sheets with thicknesses from 5 to 300 μm and with thermal conductivity from 1,200 to 1,500 W/mK.

The main characteristics are very light and thin, 30% lighter than aluminum, and even 80% lighter than copper.
The extremely high thermal conductivity, the thermal conductivity is about 400% of copper, and it is 700% of aluminum.
It can be applied to any curved surface.