Nitrogen-doped Graphene

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Product Details:

Smell Odorless
Poisonous Yes
Taste Odorless
Density 0.03 Gram per cubic centimeter(g/cm3)
Shape Sheet/Flake
Structural Formula Graphene lattice with nitrogen incorporation
Solubility Dispersible in water, ethanol, NMP, DMF
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Nitrogen-doped Graphene Product Specifications

Solubility Dispersible in water, ethanol, NMP, DMF
Application Supercapacitors, fuel cells, lithium-ion batteries, sensors, catalysts, energy storage devices
HS Code 38021000
Taste Odorless
Poisonous Yes
Smell Odorless
Main Material Nitrogen-doped Graphene
Structural Formula Graphene lattice with nitrogen incorporation
Shape Sheet/Flake
Density 0.03 Gram per cubic centimeter(g/cm3)
Chemical Name Nitrogen-doped Graphene
Classification Nanomaterial, carbon allotrope
Purity >98%
Grade Industrial/Research grade
Melting Point Not applicable (decomposes at high temperature)
Form Powder
Other Names N-Graphene, N-doped Graphene
Standard Complies with analytical/industrial standards
Type 2D Carbon Nanomaterial
Molecular Weight Variable
Usage Electrochemical, catalytic, electronic devices, research-grade applications
Storage Store in cool, dry conditions, avoid moisture, keep sealed
Molecular Formula C+N (substituted carbon with nitrogen)
Ph Level Neutral

Nitrogen-doped Graphene Trade Information

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

Product Description

MF C

Chemical Name Graphene

Purity > 99.9%

Diameter 2-10 µm

Thickness 01- 3 nm

Number of Layers: 1-3 (Customization possible)

Form Nanopowder

Color Black

Specific Area 200-500 m2/g

Product Number: #NCZC1006

CAS Number 7782-42-5

Content of Nitrogen: 5-10 wt%

Exceptional Conductivity and Stability

Nitrogen-doped graphene offers superior electrical conductivity alongside high thermal stability, maintaining integrity up to approximately 500C in air. These properties make it an excellent choice for cutting-edge electrochemical and electronic devices, where durability under challenging conditions is critical.

Flexible Applications Across Industries

This advanced nanomaterial serves as a key component in supercapacitors, fuel cells, batteries, and catalysts. Its enhanced surface area and dispersibility in polar solvents also support its use in sensors and energy storage. Suitable for both research-grade projects and industrial-scale production, it meets rigorous analytical standards.

FAQs of Nitrogen-doped Graphene:

Q: How is nitrogen-doped graphene produced?

A: Nitrogen-doped graphene is typically manufactured via chemical vapor deposition or through wet chemical synthesis. These methods allow for controlled nitrogen integration into the graphene lattice, optimizing its electrical and catalytic properties for diverse applications.

Q: What benefits does nitrogen doping provide to graphene?

A: Nitrogen incorporation enhances graphenes electrical conductivity, catalytic activity, and overall reactivity. This leads to improved performance in supercapacitors, batteries, fuel cells, and sensors, making it highly suitable for advanced energy and electronic applications.

Q: When should nitrogen-doped graphene be used in electrochemical devices?

A: Nitrogen-doped graphene is recommended for use in electrochemical systems where high conductivity, large surface area, and stability are important, such as in supercapacitors, lithium-ion batteries, and fuel cells. Its performance characteristics support efficient charge storage and transfer processes.

Q: Where can nitrogen-doped graphene be applied most effectively?

A: It is most effective in fields like energy storage, catalysis, sensing, and electronics. Applications include supercapacitors, fuel cells, batteries, sensors, and research-grade devices that require fast charge/discharge cycles and robust material performance.

Q: What is the recommended process for dispersing nitrogen-doped graphene in solvents?

A: Disperse the powder in polar solvents such as water, ethanol, NMP, or DMF using gentle stirring or ultrasonication. The products high dispersibility facilitates uniform distribution for solution-based processing and functionalization.

Q: How should nitrogen-doped graphene be stored for optimal shelf life?

A: Store the material in cool, dry conditions, sealed tightly to prevent moisture uptake. Under recommended storage, the shelf life is approximately 12 months, retaining its performance and structural integrity.

Q: What are the primary advantages of using nitrogen-doped graphene over regular graphene?

A: Compared to pristine graphene, nitrogen-doped graphene provides higher conductivity, greater chemical reactivity, and enhanced catalytic efficiency. These improvements make it particularly valuable in energy and sensing technologies.

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