Graphene Nanoplatelets

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Purity >99%
Storage Keep tightly sealed, store in cool, dry place
Other Names GNP, Graphene Platelets
Structural Formula Hexagonal lattice of sp2 hybridized carbon
Molecular Formula C
Molecular Weight 12.01 g/mol
Solubility Insoluble in water, dispersible in organic solvents and polymers
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Graphene Nanoplatelets Product Specifications

Classification Allotrope of carbon
Chemical Name Graphene Nanoplatelets
Shape Platelet, flake-like
Smell Odorless
Grade Industrial Grade
Taste Odorless and tasteless
Type Graphene Nanoplatelet
Poisonous Yes
Density 2.2 Gram per cubic centimeter(g/cm3)
Ph Level Neutral (7)
Standard Complies with industrial and research grade standards
Boiling point Sublimes at ~3915C
HS Code 3801
Melting Point Above 4000C (graphene theoretical)
Storage Keep tightly sealed, store in cool, dry place
Other Names GNP, Graphene Platelets
CAS No 7782-42-5
Structural Formula Hexagonal lattice of sp2 hybridized carbon
Usage Additive for conductivity, mechanical reinforcement, thermal applications
Purity >99%
Main Material Graphene
Form Powder
Solubility Insoluble in water, dispersible in organic solvents and polymers
EINECS No None assigned (substance is not required to be listed)
Molecular Formula C
Molecular Weight 12.01 g/mol
Application Conductive inks, composites, energy storage, coatings, sensors, thermal management, research

Graphene Nanoplatelets Trade Information

Payment Terms Paypal, Western Union, Telegraphic Transfer (T/T), Cash in Advance (CID), Cheque
Main Domestic Market All India

Product Description

Graphene Nanoplatelets

MF: C
Chemical Name : Graphene
Purity : >99.5%
Diameter : 5-7 µm
Thickness : 4-20 nm
Number of Layers: < 30 (Customization possible)
Form : Nanopowder
Color : Black
Product Number: #NCZC1012
CAS Number: 7782-42-5

Exceptional Conductivity and Thermal Properties

Graphene Nanoplatelets offer outstanding electrical and thermal conductivity, making them ideal additives for applications demanding high-performance energy transfer. The materials theoretical thermal conductivity surpasses 1500 W/mK, aiding advanced thermal management solutions in electronics, batteries, and coatings. Their high aspect ratio and few-layer microstructure further amplify their functionality in composites and conductive inks.

Versatile Industrial Applications

These nanoplatelets serve a broad spectrum of uses: from mechanical reinforcement in polymers to energy storage, sensors, and conductive coatings. Their dispersibility in organic solvents simplifies integration into various matrices. With exceptional purity and non-poisonous nature, they fit perfectly into both research labs and industrial manufacturing lines, supporting innovation across diverse sectors.

FAQs of Graphene Nanoplatelets:

Q: How are Graphene Nanoplatelets used in industrial and research applications?

A: Graphene Nanoplatelets act as additives to enhance conductivity, mechanical strength, and thermal properties in products such as conductive inks, composites, energy storage devices, coatings, and sensors. They are typically dispersed into polymers or solvent systems for seamless integration into final products.

Q: What benefits do Graphene Nanoplatelets provide over traditional conductive additives?

A: Thanks to their few-layer structure and high surface area, Graphene Nanoplatelets deliver superior electrical and thermal conductivity. Their high aspect ratio also improves mechanical reinforcement, resulting in enhanced performance compared to conventional carbon black or graphite fillers.

Q: Where should Graphene Nanoplatelets be stored and how long is their shelf life?

A: They should be stored tightly sealed in a cool, dry place to preserve quality. Under recommended conditions, these nanoplatelets retain their properties for up to 24 months.

Q: When should Graphene Nanoplatelets be selected for a project?

A: Choose Graphene Nanoplatelets when your application demands advanced conductivity, mechanical strength, or efficient thermal management, such as in electronic devices, battery technology, or composite materials.

Q: What is the process for dispersing Graphene Nanoplatelets in polymers or solvents?

A: Dispersing involves mixing the nanoplatelets thoroughly into organic solvents or polymers using techniques like sonication or high-shear mixing to achieve a uniform distribution and optimal performance in the matrix.

Q: Are Graphene Nanoplatelets poisonous or hazardous?

A: No, these nanoplatelets are non-poisonous, odorless, and tasteless. They comply with safety standards and do not present toxicity concerns when handled and stored properly.

Q: What industries commonly benefit from the use of Graphene Nanoplatelets?

A: Industries such as electronics, energy storage, aerospace, automotive, and advanced material manufacturing utilize Graphene Nanoplatelets for high-performance conductive components, efficient thermal management, and structural reinforcement systems.

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