ru
- Battery Manufacturing Equipment
- Battery Laboratory Assembly Equipment
- Battery Pack Assembly Equipment
- Sodium Ion Battery Manufacturing Equipment
- Solid State Battery Assembly Line
- Dry Electrode Assembly Equipment
- Supercapacitor Assembly Equipment
- Perovskite Solar Cell Lab Equipment
- Li ion Battery Materials
- Ni / Al / Cu Metal Foam
- Customized Electrode
- Cathode Active Materials
- Anode Active Materials
- Coin Cell Parts
- Lithium Chip
- Cylindrical Cell Parts
- Battery Current Collectors
- Battery Conductive Materials
- Electrolyte
- Battery Binder
- Separator and Tape
- Aluminum Laminate Film
- Nickel Strip/Foil
- Battery Tabs
- Graphene Materials
- Cu / Al / Ni / Stainless steel Foil
- Battery Laboratory Equipment
- Li ion Battery Tester
- Battery Safety Tester
- Battery Material Tester
- Film Coating Machine
- Rolling Press Machine
- Electrode Mixer
- Coin Cell Crimping Machine
- Coin Cell Electrode Disc Punching
- Pouch Cell Sealing Machine
- Pouch Cell Stacking Machine
- Pouch Cell Forming Machine
- Pouch Cell Ultrasonic Welder
- Pouch Cell Electrode Die Cutter
- Cylinder Cell Sealing Machine
- Cylinder Cell Grooving Machine
- Electrode Slitting Machine
- Cylinder Cell Winding Machine
- Cylinder Cell Spot Welding Machine
- Electrolyte Filling
- Type Test Cell
- Other Battery Making Machine
- NMP Solvent Treatment System
- Vacuum Glove Box
- Lab Furnaces
- Ball Mill
- Hydraulic Press
- Laboratory Equipment
CVD Made 3D Graphene Foam Sheet for Lab Research
Model Number:
Tmax-Gra-1Dimension(L*W*H):
CustomizedCompliance:
CE certificatePlace of Origin:
China:
Xiamen portPayment:
T/T, Credit Card, Paypal, LC, Western UnionDelivery Time:
3 Days
Wechat:13506084915
CVD Made 3D Graphene Foam Sheet for Lab Research Features
1. 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.
2. 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.
3. The metal skeleton is then etched away and left is a visible, porous 3D graphene foam structure.
4. This structure has a high surface area, which opens several exciting applications for graphene foam while maintaining most of two-dimensional graphene’s properties.
5. 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.
Weight of per unit area : 0.5-0.9 mg/cm2.
Size of branches: 50-200 microns.
Characteristic of large aperture: 200-500 microns.
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.
Specifications
|
Sample size |
100*100mm (he size can be customized ) |
|
Thickness |
1.2 mm-1.6mm |
|
Density |
4 mg/cm3 |
|
Pore Size |
580 microns |
|
Packing |
in sealed membrane box |
cindy@tmaxcn.com
David@battery-equipments.com
Wechat:13506084915