NN1593 Graphite nanopowder with high carbon content

High Carbon Graphite Nanopowder Description

High Carbon Graphite Nanopowder exhibits properties that are suitable for scientific and industrial applications. It contains a carbon content above 99%, resulting in excellent electrical conductivity and thermal stability. These factors support its use in energy storage devices such as lithium-ion batteries and supercapacitors. Its nanoscale particles offer a large specific surface area, thereby increasing its effectiveness as an additive in lubricants to reduce friction and wear in mechanical systems. Furthermore, its chemical inertness and resistance to high temperatures render it appropriate for thermal management materials and catalyst supports in chemical processes. Consequently, High Carbon Graphite Nanopowder contributes to enhanced performance and efficiency in various technological applications across multiple sectors.

High Carbon Graphite Nanopowder Specifications

Applications of High Carbon Graphite Nanopowder

High Carbon Graphite Nanopowder is utilised in energy storage devices such as lithium-ion batteries and supercapacitors. Its high electrical conductivity and thermal stability facilitate efficient energy storage and discharge. It is employed in lubricants to reduce friction and wear, thereby enhancing mechanical efficiency. In thermal management, it improves heat dissipation in electronic devices. It functions as a catalyst support by providing a large specific surface area for chemical reactions. It is also applied in electronics for conductive coatings and printed circuits. Furthermore, it reinforces composite materials, improves metallurgical processes and increases the sensitivity of electrochemical sensors. Thus, it exerts a measurable influence on technological and industrial development.

Packaging of High Carbon Graphite Nanopowder

The High Carbon Graphite Nanopowder is maintained under controlled conditions during storage and transport. This protocol ensures the preservation of its original quality.