Physiochemical Role of Nanoparticles in Solid Fuel Cells, Production and Applications in Physics and Chemical Sciences

Demand of fuel cells have been increased due to the high potential and incredibly efficient power sources. They have been wide range of applications such as portable fuel cells in laptops, up to huge stationary installations to power data centers. Ordinary cells are not providing good reliability and quality of power while on the other hand, fuel cells with efficient metal body allows the good reliability and quality of power provided does not degrade over time. Fuels cell that comprised of carbon nanotubes have been efficiently used for the fabrication process due to fine catalysis of adoption major barrier to many applications for power generation for commercial, industrial and residential buildings and in remote or inaccessible areas. The carbon-nanotubes are made up of smaller particles of carbon with allow the network of fine fibers while on the other hand, ordinary cells can be designed in storing hydrogen, as per the requirements. Porous Platinum nanotubes nanoporous have been designed to adopt the porosity and flow of the carbon particles for generation of energy. Different oxidants can be employed for fuel adjustments and other site reactions but oxygen is preferable due to their availability. It is easy to maintain the fuel cells adjustment through the use of nanotechnology to the industrials processes for manufacturing of variety of new materials.