Mesoporous Carbon Spheres

Product Overview
Mesoporous Carbon Spheres are spherical carbon materials with a mesoporous structure, where the pore size typically ranges from 2 to 50 nm. These materials are widely used in energy storage, catalysis, gas adsorption, and other fields. They can be prepared using various methods, including template methods, sol-gel processes, and hydrothermal synthesis, with template methods being the most common. The high surface area, high porosity, and tunable pore structure make mesoporous carbon spheres highly versatile and effective in a variety of industrial applications.

Key Features

• High Surface Area:Provides more active sites, enhancing adsorption capacity and catalytic activity.
• High Porosity:Improves hydrogen storage capacity and catalytic performance.
• Tunable Pore Size:Pore size can be adjusted according to specific application needs, making it adaptable to a wide range of industries.
• Good Stability:Excellent chemical and thermal stability, ensuring high performance in various environments.

Applications

• Energy Storage:Used in supercapacitors and lithium-sulfur batteries, mesoporous carbon spheres enhance energy efficiency and promote the development of alternative energy sources.
• Gas Adsorption:Due to their high surface area and porosity, these materials are commonly employed in adsorbing harmful gases like carbon dioxide and formaldehyde.
• Catalysis:Act as catalysts or catalyst supports, improving the efficiency and selectivity of oxidation and other chemical reactions.
• Biomedical:Used as drug carriers or biosensors, they enable controlled release and targeted drug delivery.
• Environmental Protection:In air purification and water treatment, mesoporous carbon spheres utilize their exceptional adsorption properties and stability to help in environmental remediation.