TMAXCN Brand Graphene Foams Growing on Nickel Foam

Product Details
Customization: Available
Condition: New
Certification: CE
Diamond Member Since 2020

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  • TMAXCN Brand Graphene Foams Growing on Nickel Foam
  • TMAXCN Brand Graphene Foams Growing on Nickel Foam
  • TMAXCN Brand Graphene Foams Growing on Nickel Foam
  • TMAXCN Brand Graphene Foams Growing on Nickel Foam
  • TMAXCN Brand Graphene Foams Growing on Nickel Foam
  • TMAXCN Brand Graphene Foams Growing on Nickel Foam
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Basic Info.

Model NO.
TMAX-GrapheneFoam
Customized
Customized
Application
Battery
Transport Package
Wood Packing
Specification
20-100 foot cabinet
Trademark
TMAX
Origin
China

Product Description

TMAXCN Brand Graphene Foams Growing on Nickel Foam

Graphene Foams Growing on Nickel Foam



Feature
The 3D Graphene Foam is made via chemical vapor deposition (CVD) processing. In course of CVD fabrication of graphene hydrogen and methane gases are introduced into a furnace that heats to 1000° Celsius. In the furnace is a nickel or copper film which captures a mono or multi-layer or graphene as the furnace is heated and the methane decomposes.

To create CVD Graphene Foam, instead of using a thin sheet of nickel to capture graphene, nickel or copper foam is used. The metal foam captures graphene in a similar foam structure. The metal skeleton is then etched away and left is a visible, porous 3D graphene foam structure.

This structure has a high surface area, which opens several exciting applications for Graphene Foam while maintaining most of two-dimensional graphene's properties1.CVD processing of Graphene Foam opens a cost-effective route for engineering a new class of ultra-light, highly conductive graphene-based materials with exceptional mechanical strength, flexibility, and elasticity.

 

The macroscopic size of the sample: does not exceed 2 cm'in width and 4 cm in length,
The macroscopic color:grey.
Advantages
1. It has good conductivity and is an excellent light porous conductive carrier.
2. On this substrate, we can grow a variety of oxide and hydroxide nanoarrays such as nickel oxide, cobalt oxide, cobalt trioxide, ferric oxide, cobalt hydroxide, nickel hydroxide, tungsten oxide, vanadium oxide, titanium oxide and so on.
 
Specifictions
Sample size 100*100mm  The size can be customized
Thickness 1.2 mm-1.6mm
Density 4 mg/cm3
Pore Size 580 microns
Packing  in sealed membrane box 
Surface density 0.5-0.9 mg/cm2.
Size of branches 50-200 microns
Characteristic of  large aperture 200-500 microns.
Thermal conductivity >6w/(m2k)
Standard PPI value 110

Reference dimensions
0.1mm*200mm*300mm 0.2mm*200mm*300mm 0.3mm*200mm*300mm
0.4mm*200mm*300mm 0.5mm*200mm*300mm 0.6mm*200mm*300mm
0.7mm*200mm*300mm 0.8mm*200mm*300mm 0.9mm*200mm*300mm
1mm*200mm*300mm 1.6mm*20mm*300mm The size can be customized


TMAXCN Brand Graphene Foams Growing on Nickel FoamTMAXCN Brand Graphene Foams Growing on Nickel FoamTMAXCN Brand Graphene Foams Growing on Nickel Foam


TMAXCN Brand Graphene Foams Growing on Nickel FoamTMAXCN Brand Graphene Foams Growing on Nickel FoamTMAXCN Brand Graphene Foams Growing on Nickel FoamTMAXCN Brand Graphene Foams Growing on Nickel FoamTMAXCN Brand Graphene Foams Growing on Nickel Foam

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