new material
Disordered mesoporous carbon provides optimized porosity, superior electrochemical performance, and enhanced adsorption capacity. Designed for energy storage and catalytic applications, it ensures efficient ion transport, extended stability, and high adaptability.
Product Overview
Disordered mesoporous carbon has irregular or isolated interconnected pore structures. Although its conductivity is relatively poor, it still demonstrates significant potential in multiple fields due to its large specific surface area and certain porosity. The unique pore structure offers advantages in energy storage, catalysis, and gas adsorption, making it a valuable material in various applications.
Key Features
- High Specific Surface Area:Provides more contact sites, enhancing reactivity and adsorption capacity.
- Chemical Stability:Exhibits high stability in various chemical environments.
- Irregular Pore Structure:The pores are randomly distributed, lacking clear periodicity or symmetry.
- Broad Pore Size Distribution:The pore size is widely distributed, making it suitable for different applications.
Applications
- Energy Storage:Can be used in supercapacitors, lithium-ion batteries, and other energy storage devices, helping improve electrode material performance.
- Catalysis:Serves as a catalyst or catalyst support, enhancing catalytic efficiency.
- Gas Adsorption and Separation:Exhibits gas adsorption capabilities, suitable for gas storage, separation, and purification applications.
- Chemical Purification:Used in chemical substance purification and separation processes.
- Environmental Applications:Contributes to environmental pollution control, providing solutions for waste treatment and other environmental issues.
| Technical Parameter | Value |
| Form | Powder |
| BET Surface Area | ~600 m²/g |
| Average Pore Diameter | <50 nm |
