Department of Chemistry, National Central University, Professor Wu Chungui chaired the third generation of solar cell asus a32 f3 battery development and breakthroughs in the efficiency of dye sensitized solar cells 11.5%, the highest yield of the dye present literature.
National Science Council invited Wu Chungui report released today, “third generation solar cell technology results─ dye sensitized solar cell R & D (Dye-Sensitized Solar Cells DSSC).” Dye sensitized titanium dioxide by means of dyes (TiO2) game interface, resulting from the current absorption.
Wu Chungui team of dye sensitized solar cell asus f3 battery efficiency of 11.5% is the highest efficiency in the literature, future performance with more ruthenium (Ru) complex dye, which is also verified.
Wu said that solar cells are Chungui earlier in development, the current state of technology of solar cells for higher efficiency monocrystalline silicon (24%), the energy payback period of about 2-10 years; dye solar cell efficiency of 11% simple process, the energy payback time is short, the period of Japanese research recovery may be six months, and at lower cost.
Wu Chungui that the characteristics of dye solar cells, is the impact of the conversion efficiency of solar radiation, the conversion efficiency with increasing temperature, the Dual Jieke that absorb light, is conducive to the absorption of the scattered light, if the effectiveness asus a9 battery and then the inner source to produce electricity.
According to Fuji, Japan Research Institute estimated the market value up to 2014, DSSC 200 million dollars, but Wu Chungui that part should refer to custom design small-scale, enter the mass market is too optimistic. Moreover, although marketing should not be any time, but estimates of Japan, probably around 2020.
In addition, Nano market forecast 2015 output of about U.S. $ 370 million of DSSC.
Wu Chungui plastic that the dye asus z96 battery sensitized cells with the characteristics of deflection can be placed at various locations; under dye sensitized solar cell potential in the future could be in consumer electronics such as iPods, mobile phone charging.
Chungui Wu said that the future will be both the dye solar cell based on research and development results continue to develop high-performance dye Fenzi, and the team of first class research at home and abroad as well as relevant research, while Xunqiu with internal Changshanghezuo, common commercial ibm thinkpad t60 battery development of dye solar cells.
─ the third generation of DSSC solar cells, the Lausanne Federal Institute of Technology in 1991 by Professor Michael Graetzel and others have proposed a possible cost reduction of solar electricity.
Because of this new type of solar cell transmission, color adjustable degeneration, can be consider a good conversion efficiency, effectiveness, subject to environmental impact, and low manufacturing ibm thinkpad x60 battery cost advantages, become a very popular area of study, and a considerable number of domestic and foreign companies active in marketing development DSSC.
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