Holey Super Graphene
Holey Super Graphene (hG), also known as holey graphene or porous graphene, is an advanced form of graphene engineered with controlled nanometer- to mesoscale-sized pores. These precision-designed holes provide unique electronic, chemical, and structural properties while preserving the exceptional performance of traditional graphene. In addition to its well-known attributes, Holey Super Graphene offers ultra-high conductivity, a significantly increased surface area, and enhanced electrochemical behavior—making it an outstanding material for next-generation research and high-performance applications.
Purchase Holey Super Graphene today to elevate the efficiency and capabilities of your research, innovations, and projects.
Nanografi supplies Holey Super Graphene in bulk quantities and multiple grades, tailored for diverse scientific and industrial requirements—all at competitive prices.
Technical Properties of Holey Super Graphene
| Property | Value |
|---|---|
| Sheet Resistance (Ω/sq) | 1155 |
| Electrical Conductivity (S/m) | >800 |
| Volume Resistivity (Ω·cm) | 0.11 |
| Pore Size (nm) | 2 – 100 (customizable) |
| Particle Size (µm) | 5 – 20 |
Applications of Holey Super Graphene
Holey Super Graphene’s remarkable properties—including ultra-high conductivity, large surface area, and superior electrochemical response—make it suitable for a broad range of advanced applications. It accelerates charge–discharge cycles in energy storage systems, enhances sensitivity in sensors, improves material performance, and supports breakthroughs in clean energy and environmental technologies.
Key application areas include:
- Electronics: Improves energy storage in batteries and supercapacitors by enabling faster charge–discharge cycles and extending operational lifespan.
- Sensing Technology: Ideal for gas and molecular sensors, offering high sensitivity and rapid response for environmental monitoring and medical diagnostics.
- Photonics & Optoelectronics: Enhances the efficiency of photodetectors and light-emitting devices due to its unique electrical and optical characteristics.
- Clean Energy: Useful in fuel cells and hydrogen storage systems, leveraging high surface area for improved energy conversion and storage efficiency.
- Water Purification: Enables nanoscale filtration for desalination, contaminant removal, and water treatment applications.
- Environmental & Industrial Safety: Functions as a sensitive detection material for pollutants, hazardous gases, and industrial emissions.
- Material Enhancement: Integrated into nanocomposites to improve mechanical strength, electrical performance, and thermal stability in aerospace, automotive, and construction sectors.
