3D FREESTANDING GRAPHENE FOAM

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Product Details:

Storage Store in cool, dry place, avoid humidity
Poisonous Yes
Other Names Graphene Foam, 3D Graphene Foam, Porous Graphene
Molecular Formula C
Smell No characteristic smell
Ph Level Neutral (pH 7)
Structural Formula Hexagonal carbon lattice, 3D network
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3D FREESTANDING GRAPHENE FOAM Product Specifications

Taste Odorless and tasteless
Usage Research, industrial, electronic devices
Purity >99%
Ph Level Neutral (pH 7)
Smell No characteristic smell
Structural Formula Hexagonal carbon lattice, 3D network
EINECS No 231-955-3
Storage Store in cool, dry place, avoid humidity
CAS No 1034343-98-0
Main Material Graphene (Freestanding Foam)
Other Names Graphene Foam, 3D Graphene Foam, Porous Graphene
Molecular Formula C
Poisonous Yes
Melting Point Sublimates above 3600C
Classification Carbon Allotrope
Boiling point Not applicable (does not boil)
Grade High Purity, Research Grade
Form Solid, Freestanding foam
Application Sensors, energy storage, supercapacitors, batteries, biomedical, catalyst support, EMI shielding
Density 15 Gram per cubic centimeter(g/cm3)
Type 3D Freestanding Foam
Solubility Insoluble in water and most organic solvents
HS Code 38019000
Chemical Name Graphene
Molecular Weight 12.01 g/mol
Shape Porous 3D Foam Structure
Standard Complies with international nanomaterial standards

Shelf Life Stable for several years under recommended conditions
Flammability Non-flammable
Thermal Conductivity Up to 5000 W/mK (theoretical)
Biocompatibility Biocompatible for in vitro and certain in vivo applications
Color Black
Electrical Conductivity High (up to 10 S/m)
Pore Size Microporous (10-100 microns)
Surface Area >500 m/g
Thickness 0.5-3 mm (typical)
Youngs Modulus Lithtweight and flexible (varies with synthesis)
Production Method Chemical vapor deposition (CVD) on nickel foam, followed by etching
Compressive Strength ~10-15 kPa (typical)

3D FREESTANDING GRAPHENE 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, South America, Western Europe, Middle East, Africa, Central America, Asia, Eastern Europe, North America
Main Domestic Market All India

Product Description

Product Name	3D Freestanding Graphene Foam
Stock No.	NCZ-GSW-0023
Purity	> 99.9%
Graphene Film
FET Electron Mobility on Al2O3	2000 cm2/Vs
Hall Electron Mobility on SiO2/Si	4000 cm2/Vs

Exceptional Conductivity and Surface Area

3D Freestanding Graphene Foam delivers outstanding electrical conductivity and boasts an immense surface area, making it highly effective for energy storage devices and advanced electronic applications. Its theoretical thermal conductivity provides unparalleled heat management, particularly suited for next-generation batteries and supercapacitors.

Advanced Production Process

Produced using chemical vapor deposition (CVD) on a nickel foam template followed by precise etching, this manufacturing method yields a robust, high-purity, three-dimensional graphene framework. The result is a freestanding, lightweight, and flexible foam suitable for both academic research and commercial applications.

Versatile Applications

Due to its excellent material properties, this foam finds roles in sensors, biomedical applications, catalyst support, EMI shielding, and more. Its biocompatibility suits it for in vitro and select in vivo testing, while its mechanical stability and non-flammability ensure safety and reliability across diverse industrial environments.

FAQs of 3D FREESTANDING GRAPHENE FOAM:

Q: How is 3D Freestanding Graphene Foam produced?

A: This foam is synthesized using chemical vapor deposition (CVD) on nickel foam, creating a graphene layer that is then freed by etching away the nickel. This process results in a high-purity, three-dimensional structure with excellent electrical and mechanical properties.

Q: What are the main usage benefits of 3D Freestanding Graphene Foam?

A: The foam provides high surface area, excellent electrical and thermal conductivity, and robust mechanical flexibility. These characteristics make it ideal for energy storage devices, sensors, EMI shielding, catalyst supports, and various research and biomedical applications.

Q: When is 3D Freestanding Graphene Foam most suitable for use?

A: It is best used in projects requiring lightweight, highly conductive, and biocompatible materials, especially where superior surface area and stability over time are necessary. Its suitability extends to laboratories, industrial setups, and advanced electronic manufacturing.

Q: Where can 3D Freestanding Graphene Foam be applied?

A: This material is applicable in energy storage systems, supercapacitors, batteries, biomedical devices, sensor technology, catalysis, and electromagnetic interference (EMI) shielding, offering versatility across research and industrial sectors.

Q: What is the typical process for handling and storing Graphene Foam?

A: To maintain quality, the foam should be stored in a cool, dry environment away from humidity. It is stable for several years under recommended storage conditions and must be handled in accordance with standard material safety guidelines.

Q: What are the safety and environmental benefits of using this foam?

A: 3D Graphene Foam is non-toxic, non-flammable, biocompatible for certain in vitro and in vivo uses, and odorless and tasteless. Its inertness and environmental compatibility enhance safe handling and broader biomedical acceptance.

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