3D GRAPHENE ON NICKEL/COPPER FOAM

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Structural Formula Hexagonal lattice for Graphene
Density 0.5 Gram per cubic centimeter(g/cm3)
Ph Level Neutral
Solubility Insoluble in water; can be wetted with specific solvents or coatings
Form Solid, open-cell metallic foam with graphene coating
HS Code 69039090
Smell Odorless
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3D GRAPHENE ON NICKEL/COPPER FOAM Product Specifications

HS Code 69039090
Grade High purity research/industrial grade
Smell Odorless
Other Names 3D Graphene Foam, Graphene-coated Metal Foam
Boiling point Nickel: 2913C; Copper: 2562C; Graphene: Not Applicable (sublimes)
Melting Point Nickel Foam: 1455C; Copper Foam: 1085C; Graphene: Sublimation above 3600C
Molecular Formula C for Graphene, Ni for Nickel, Cu for Copper
Chemical Name Graphene on Nickel/Copper Foam
Storage Store in a dry, cool, and well-ventilated place; avoid moisture
Standard Custom/Research grade
Shape Porous foam structure
Application Energy storage (supercapacitors, batteries), sensors, catalysis, EMI shielding, flexible electronics
Molecular Weight Graphene: 12.01 g/mol (monolayer); Nickel: 58.69 g/mol; Copper: 63.55 g/mol
Poisonous Yes
Purity > 99%
Structural Formula Hexagonal lattice for Graphene
CAS No Graphene: 1034343-98-0, Nickel: 7440-02-0, Copper: 7440-50-8
Main Material Graphene on Nickel or Copper foam substrate
Usage EMI shielding, energy devices, catalyst support, electronic components
Type 3D Graphene Foam composite
Density 0.5 Gram per cubic centimeter(g/cm3)
Ph Level Neutral
Classification Carbon Nanomaterial Composite
Solubility Insoluble in water; can be wetted with specific solvents or coatings
EINECS No Graphene: 231-955-3, Nickel: 231-111-4, Copper: 231-159-6
Form Solid, open-cell metallic foam with graphene coating

3D GRAPHENE ON NICKEL/COPPER FOAM Trade Information

Sample Available Yes
Sample Policy Sample costs shipping and taxes has to be paid by the buyer
Main Export Market(s) Australia, North America, South America, Eastern Europe, Western Europe, Middle East, Central America, Africa, Asia
Main Domestic Market All India

Product Description

Sheet Resistance	<600 /sq
Custom Order	<300 /sq
Transparency	>95%

Product Name	3D Graphene on Nickel/Copper Foam
Stock No.	NCZ-GSW-0022
Purity	> 99.9%
Graphene Film
FET Electron Mobility on Al2O3	2000 cm2/Vs
Hall Electron Mobility on SiO2/Si	4000 cm2/Vs

Engineered for Performance

With single to few-layer graphene coating supported by nickel or copper foam, this composite offers both mechanical stability and extraordinary electronic properties. Its open-cell architecture ensures high surface area, while the metallic substrate contributes to enhanced conductivity and robustness, paving the way for dependable device integration and novel applications.

Multi-Functional Applications

The 3D Graphene on Metal Foam composite is widely used in energy storage devices, such as batteries and supercapacitors, as well as in sensors, catalysis, EMI shielding, and flexible electronic components. Its high uniformity and customized form factor allow for easy adaptation into research and industrial environments.

FAQs of 3D GRAPHENE ON NICKEL/COPPER FOAM:

Q: How is 3D Graphene on Nickel or Copper Foam produced?

A: This composite is manufactured using Chemical Vapor Deposition (CVD), which enables the growth of single to few-layer graphene directly onto nickel or copper foam substrates. This process ensures uniform coverage, low-defect graphene, and strong adhesion to the metal foam.

Q: What benefits does 3D Graphene Foam provide in energy applications?

A: Its exceptional electrical conductivity, high surface area, and stable structure enhance the performance of supercapacitors and batteries by enabling efficient charge transfer, high storage capacity, and reliable cycling stability.

Q: Where can 3D Graphene on Metal Foam be utilized?

A: This material is compatible with energy storage devices, sensors, catalysis, EMI (Electromagnetic Interference) shielding, and flexible electronics, making it suitable for both laboratory research and industrial manufacturing.

Q: When should I use Nickel foam versus Copper foam as the substrate?

A: Nickel foam is preferred for high-temperature applications and its higher melting point, while copper foam is often chosen when maximum electrical conductivity and lower weight are required. The choice depends on your device needs and operating environment.

Q: What is the recommended process for storing 3D Graphene Metal Foam?

A: Store the foam in a cool, dry, and well-ventilated area, away from moisture. Under such conditions, the material remains stable for years without degradation.

Q: How does the 3D structure improve device performance compared to 2D graphene sheets?

A: The porous, 3D framework offers greatly increased surface area, improved catalyst dispersion, and enhanced electron transport pathways. This structure is especially advantageous for energy storage, sensing, and catalytic efficiency.

Q: What usage precautions or compatibility considerations exist?

A: The foam is non-poisonous and odorless under standard conditions, but it is insoluble in water and should be handled dry or wetted with suitable solvents when necessary. It is compatible with most standard device fabrication techniques.

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