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Graphene powder

Name: Graphene powder
Brand: WEE SCIENTIFICS
Price: 7000.0 INR
Availability: InStock

Price 7000.0 INR/ Kilograms

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MOQ : 100 Kilograms

Graphene powder Specification

Usage
Additive for composites, conductive inks, sensors, catalysts

Shelf Life
24 months

Density
1.06 Gram per cubic centimeter(g/cm3)

CAS No
1034343-98-0

Ph Level
Neutral (7)

Purity
99.5%

Size
Particle size: 1-5 m

Molecular Weight
12.01 g/mol (per carbon atom)

Molecular Formula
C

Physical State
Powder

Storage Instructions
Store in a cool, dry place, tightly sealed

Melting Point
>3600C (sublimes)

Packaging Type
Plastic jars, sealed bags

Grade
Industrial Grade

Type
Graphene Powder

Application
Electronics, Energy storage, Conductive coatings, Batteries, Research

Appearance
Black powder

Purity(%)
99.5%

Odor
Odorless

Impurity Level
<0.5%

Ash Content
<1%

Electrical Conductivity
>1000 S/cm

Moisture Content
<0.5%

pH (10% Solution)
6-8

Surface Area
>500 m2/g

Number of Layers
Single to few-layer graphene

Thermal Conductivity
~5000 W/mK

Dispersibility
Good in polar solvents

Storage Temperature
Below 35C

About Graphene powder

Graphene powder is a nanomaterial made of extremely thin layers of carbon atoms arranged in a two-dimensional honeycomb lattice structure. It is known for its exceptional electrical conductivity, mechanical strength, thermal conductivity, and lightweight nature.

Graphene is considered one of the strongest and most conductive materials discovered in modern materials science.

Exceptional Conductive Properties

This graphene powder delivers high electrical and thermal conductivity, catering to industries that demand superior material performance. Its conductivity makes it ideal for applications such as sensors, battery electrodes, and advanced composites, enabling efficient current and heat transfer where it counts most.

Versatile Material for Innovative Solutions

With a large surface area and excellent dispersibility in polar solvents, this graphene powder is highly adaptable. Researchers and manufacturers leverage its properties to enhance the mechanical, electrical, and thermal attributes of various products, from conductive inks to structural composites and energy storage devices.

FAQ's of Graphene powder:

Q: How should graphene powder be stored for maximum shelf life?

A: To ensure maximum shelf life of up to 24 months, keep graphene powder stored in a tightly sealed container at temperatures below 35C, in a cool and dry environment. Proper storage prevents moisture absorption and maintains product stability.

Q: What are the primary benefits of using this graphene powder in composites and conductive inks?

A: Adding this graphene powder to composites and conductive inks significantly improves electrical and thermal conductivity, mechanical strength, and performance reliability. Its high surface area and purity ensure effective integration and enhancements across numerous applications.

Q: When should graphene powder be used in energy storage or battery applications?

A: Graphene powder is particularly beneficial during the electrode formulation stage in battery manufacturing or energy storage systems. Its high conductivity and exceptional surface area facilitate improved charge transport and storage capacity, optimizing device efficiency.

Q: Where can this graphene powder be safely used?

A: This graphene powder is suitable for use in industrial, research, and manufacturing environments, especially in electronics, energy storage, conductive coatings, and experimental labs. It is designed for professionals adhering to safety protocols, proper handling, and recommended storage conditions.

Q: What process ensures optimal dispersibility of graphene powder in polar solvents?

A: For best dispersibility, gradually add graphene powder to polar solvents like water, ethanol, or acetone during stirring or sonication. This prevents agglomeration and ensures even distribution, maximizing the compound's performance in solutions and formulations.

Q: How does the high purity and low impurity level affect product performance?

A: A high purity level of 99.5% and impurity content below 0.5% minimize contamination risks while maximizing electrical, thermal, and chemical properties. This ensures high-quality, consistent results in applications requiring advanced material standards.

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