Graphene oxide membrane is the oxidized form of graphene. It is a single-atomic-layered material that is formed by the oxide and readily available. Graphene oxide is easy to process it is dispersible in water and other solvents.
Graphene Oxide has great potential in membrane-based applications due to its unique properties, such as high surface area, high mechanical strength, and excellent electrical and thermal conductivity. Graphene Oxide based membranes can be used for Air purification, water filtration, gas separation, and various other applications.
Graphene Oxide Membrane Advanced Air Purification
The graphene oxide membrane can remove up to 99.46% of particulate matter with a low pressure drop. The graphene oxide membrane has a large surface area and continuous pore structure, enhancing its adsorption capabilities. The membrane maintains high adsorption performance over a long time, showing excellent stability and long-term efficiency. The graphene oxide membrane is prepared using a straightforward and environmentally friendly coating method.
Efficiency of Graphene Oxide membrane for Air Purification
Graphene oxide has a large specific surface area and a continuous pore structure enhancing its adsorption capabilities.
The graphene oxide membrane maintains high adsorption performance over a long time even under varying pollutant concentrations and wind velocities.
The graphene oxide membrane achieves a particulate matter removal efficiency of up to 99.46% with a low pressure drop.
The graphene oxide membrane created using a coating method has a high specific surface area and a continuous pore structure making it highly efficient in removing particulate matter from the air. The found that the graphene oxide membrane achieved a 99.46% removal efficiency for particulate matter at a wind velocity with a low pressure drop. The membrane performance was stable over time, maintaining high adsorption efficiency even with varying pollutant concentrations and wind velocities. The preparation process is simple and environmentally friendly, providing a promising solution for air pollution control.
The graphene oxide membrane shows high efficiency in removing particulate matter, suggesting potential for further development in air purification technologies. The simple and pollution-free preparation method of the graphene oxide membrane could be scaled up for industrial applications, providing a feasible solution for large-scale air purification. The graphene oxide membrane stability and high removal efficiency over extended periods indicate its potential for long-term use in various environments.
