Titlebook: Energy Efficiency and Renewable Energy Through Nanotechnology; Ling Zang Book 2011 Springer-Verlag London Limited 2011 Energy Efficiency.M

侵略主义

Nanostructured Materials for Photolytic Hydrogen Productionto become reality, several challenges associated with the production, storage, transportation and use of hydrogen must be solved. This chapter addresses the issue of hydrogen production. While the currently most widely used method to produce hydrogen is based on the conversion of fossil fuel resourc

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TOXIN

Heterogeneous Photocatalytic Conversion of Carbon Dioxidesy task because of a high thermodynamic barrier, which requires much energy consumption. However, we should not use energy from fossil resources to convert the carbon dioxide because the use of them produces carbon dioxide; therefore, it is desirable to use natural energy for this purpose. Photocata

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Connotation

https://doi.org/10.1007/978-3-642-31290-8ional, multi-dimensional, and hollow structures. Multi-component electrocatalysts with improved durability and activity for various fuel cell reactions are also introduced. Finally, the advantage of using carbon nanotubes as electrocatalyst support and noncovalent functionalization of nanotube surface is discussed in detail.

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Foolproof

Nanomaterials for Proton Exchange Membrane Fuel Cellsional, multi-dimensional, and hollow structures. Multi-component electrocatalysts with improved durability and activity for various fuel cell reactions are also introduced. Finally, the advantage of using carbon nanotubes as electrocatalyst support and noncovalent functionalization of nanotube surface is discussed in detail.

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标准

https://doi.org/10.1007/978-3-476-02938-6 cells with inverted and tandem structures, two effective approaches to improve device performance. We will review various interfacial and intermediate layers employed in solar cells based on these concepts. The stability of the devices with these structures in ambient environment will also be discussed.