Solar fuel cells, construction

Once MNT-enabled solar energy becomes the exclusive energy source, problems such as acid rain and smog should not exist. In addition, future vehicles that are constructed from nano-materials, driven by nano-electromechanical systems and powered by hydrogen fuel cells (see Fig. 7) or solar cells (see Fig. 8) should totally eliminate transportation-related S02 and NOx emission. Therefore, the anthropogenic release of S02 and NOx that has assaulted the atmosphere since the Industrial Revolution should be ceased further acidification of the environment and the threat to human health will be relieved [31-33]. 

Mesoporous yttrium zirconium oxide or mesoporous cerium oxide anodes and a mesoporous lanthanum strontium manganate cathode constructed from nanocrystallites of these materials organized by a templating mesophase can be used in solid-oxide fuel cells. Mesoporous TiCU has a potential application in dye-sensitized solar cells. 

Exciting research is underway to improve the performance and longevity of batteries, fuel cells, and solar cells. Much of this research is directed at enhancing the chemistry in these systems through the use of polymer electrolytes, nanoparticle catalysts, and various membrane supports. Additionally, considerable effort is being put into the construction of three-dimensional microbatteries, see also Electrochemistry AIaterials Science Solar Cells. 

Solar voltaic cells based on crystalline silicon have operated with a 30% efficiency for experimental cells and 15-20% for commercial units available in 2008, at a cost of around 15 cents/kWh, compared to 4-7 cents/kWh for fossil fuel-fired power plants and 6-9 cents for those fired by biomass. Costs of photovoltaic electricity have shown a continuous downward trend. Part of the high cost in the past has resulted from the fact that the silicon used in the cells must be cut as small wafers from silicon crystals for mounting on the cell surfaces. Significant advances in costs and technology are being made with thin-fllm photovoltaics, which use an amorphous silicon alloy. These cells are only about half as efficient as those made with crystalline silicon, but cost only about 25% as much. A newer approach to the design and construction of amorphous silicon film photovoltaic devices... 

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