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Cation effects in nanocrystalline solar cells £¨Review£©[ÒÑËÑË÷ÎÞÖظ´]
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Cation effects in nanocrystalline solar cells £¨Review£© David F. Watson, Gerald J. Meyer Departments of Chemistry and Materials Science and Engineering, Johns Hopkins University, 3400 N. Charles St., Baltimore, MD 21218, USA Coordination Chemistry Reviews 248 (2004) 1391¨C1406 Abstract Over the past 20 years, the pioneering work of Michael Grätzel and coworkers has led to the development of highly efficient nanocrystalline dye-sensitized solar cells. The energy conversion mechanism of dye-sensitized solar cells involves photoinduced interfacial electron transfer reactions. The cation concentration at the semiconductor/electrolyte interface exerts a profound influence on the mechanism and efficiency of these electron transfer reactions. In this article, we review significant contributions to the understanding of cation effects in nanocrystalline solar cells. **Ò»ÇÐÄÚÈÝÀ´Ô´ÓÚÍøÂçËÑË÷£¬½ûÖ¹Ò»ÇÐÉÌÒµÓ¦Ó㬷ñÔòºó¹ûÓÉÆä³Ðµ££¬±¾Õ¾¼°Ö÷Ìâ×÷Õß²»¸º·¨Âɼ°Á¬´øÔðÈÎ** [ Last edited by luo.henry on 2008-4-29 at 09:58 ] |
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