Nanotechnology in Energy

Research into hydride materials for vitality applications commonly concentrates on upgrading gravimetric capacity thickness and particle transport of the materials. Then again, the necessities for stationary applications, for example, power devices can be essentially diverse and manageable to a more extensive class of potential materials. Various geophysical and social weights are driving a movement from fossil fills to renewable and practical vitality sources. To impact this change, we should make the materials that will bolster new vitality advances. Sun oriented vitality is the most extreme need to create photovoltaic cells that are productive and financially savvy. Branch of Materials Science and Engineering, Stanford University, directing broad exploration on Photovoltaic, Energy stockpiling and Hydrogen stockpiling to meet worldwide Energy necessities.

 

  • Green Nanotechnology
  • Nanomaterials for energy conversion
  • Nanotechnology for hydrogen production and storage
  • Life cycle assessment
  • Environment,human health and safety issues of nanotechnology

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