Graphene Nanoplatelets Industrial Grade (Graphene Nanoplatelets

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Product Details:

Storage Store in cool, dry, enclosed environment
Solubility Insoluble in water, soluble in some organic solvents
Smell Odorless
HS Code 38249992
Purity >99%
Refractive Rate Not determined
Molecular Formula C
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Graphene Nanoplatelets Industrial Grade (Graphene Nanoplatelets Product Specifications

Molecular Weight 12.01 g/mol (per atom, actual product is polydisperse)
Poisonous Yes
Ph Level Neutral (pH 7, aqueous dispersion)
Other Names GNP, few-layer graphene, industrial graphene flakes
Melting Point >3600C (sublimes)
Structural Formula 2D hexagonal lattice of sp2-bonded carbon atoms
Density 2.2 Gram per cubic centimeter(g/cm3)
Application Polymer composites, coatings, energy storage, conductive inks, sensors, construction materials, lubrication
Storage Store in cool, dry, enclosed environment
Solubility Insoluble in water, soluble in some organic solvents
Standard Industrial grade specification
HS Code 38249992
Smell Odorless
EINECS No 231-955-3
Main Material Graphene
Type Graphene Nanoplatelets
Classification Carbon nanomaterial
Grade Industrial Grade
Chemical Name Graphene Nanoplatelets
Usage Industrial additive, performance enhancer in composites
Molecular Formula C
Shape Platelet (nanoplatelet)
Form Powder
Boiling point Not applicable (sublimes at high temperature)
CAS No 1034343-98-0
Purity >99%
Refractive Rate Not determined

Graphene Nanoplatelets Industrial Grade (Graphene Nanoplatelets Trade Information

Main Export Market(s) Australia, Central America, North America, Eastern Europe, Western Europe, Middle East, Africa, South America, Asia
Main Domestic Market All India

Product Description

Graphene Nanoplatelets Industrial Grade

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

Superior Performance for Industrial Applications

Graphene Nanoplatelets Industrial Grade deliver exceptional electrical and thermal conductivities, elevating the performance of polymer composites, coatings, sensors, and lubrication systems. Their low impurity content and high surface area increase efficiency in energy storage and conductive ink formulations, making them a preferred choice for manufacturers seeking reliable, consistent enhancement materials.

Proper Storage and Shelf Life

To maintain product integrity, store graphene nanoplatelets in a cool, dry, enclosed space. Sealed packaging ensures minimal contamination and agglomeration, supporting the stated shelf life of two years. Correct storage practices preserve their structural and functional properties, safeguarding optimal performance in industrial applications.

Versatile Use Across Industries

This industrial grade graphene is used extensively by manufacturers, exporters, suppliers, traders, and retailers throughout India and beyond. Its adaptability as an additive in composites, coatings, and conductive inks offers tangible benefits in construction, sensors, lubrication, and beyond. The materials neutral pH and non-toxic nature further support safe, routine use in various industrial settings.

FAQs of Graphene Nanoplatelets Industrial Grade (Graphene Nanoplatelets:

Q: How should Graphene Nanoplatelets Industrial Grade be stored to maximize shelf life?

A: Graphene nanoplatelets should be stored in sealed containers within a cool, dry, and enclosed environment. This prevents moisture uptake, contamination, and agglomeration, ensuring a shelf life of up to two years under recommended conditions.

Q: What advantages do graphene nanoplatelets provide in polymer composite manufacturing?

A: In polymer composites, graphene nanoplatelets enhance mechanical strength, thermal conductivity, and electrical performance. Their high surface area and low agglomeration improve dispersion in polymers, resulting in superior end-product properties.

Q: When is it recommended to use industrial grade graphene nanoplatelets over other carbon additives?

A: Industrial grade graphene nanoplatelets are preferred when high electrical and thermal conductivities, low impurity levels, and easy dispersion are critical for boosting composite, coating, energy storage, or sensor performance.

Q: Where are graphene nanoplatelets most commonly utilized in industrial settings?

A: Graphene nanoplatelets are widely employed in polymer composites, coatings, conductive inks, sensors, energy storage systems, lubrication, and advanced construction materials across manufacturing, research, and engineering sectors.

Q: What is the process for dispersing graphene nanoplatelets in solvents or polymer matrices?

A: Graphene nanoplatelets typically undergo surface treatment or sonication to minimize agglomeration, then are dispersed in selected organic solvents or polymer matrices using mechanical stirring, ultrasonication, or high-shear mixing processes.

Q: How does the low impurity level benefit graphene nanoplatelet applications?

A: With impurity levels below 1%, primarily ash and trace metals, graphene nanoplatelets offer greater reliability and performance consistency. Low contamination enables cleaner incorporation into composites, conductive films, and sensitive devices.

Q: What are the main safety and handling considerations for this product?

A: Graphene nanoplatelets are non-toxic under standard handling. Users should avoid inhalation of powder and follow industrial hygiene practices, including using protective equipment and working in well-ventilated areas.

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