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机译:通过能量匹配溶液处理的NiOx中间层提高塑料太阳能电池的效率
Colorado School of Mines Physics Dept. Golden CO 80401 USA;
National Center for Photovoltaics National Renewable Energy Laboratory Golden CO 80401 USA;
University of Colorado Physics Dept. Boulder CO 80309 USA;
National Center for Photovoltaics National Renewable Energy Laboratory Golden CO 80401 USA;
Princeton University Electrical Engineering Dept. Princeton NJ 08544 USA;
University of Arizona Dept. of Chemistry and Biochemistry and Center for Interface Science: Solar Electric Materials Tucson AZ 85721 USA;
Princeton University Electrical Engineering Dept. Princeton NJ 08544 USA;
University of Arizona Dept. of Chemistry and Biochemistry and Center for Interface Science: Solar Electric Materials Tucson AZ 85721 USA;
National Center for Photovoltaics National Renewable Energy Laboratory Golden CO 80401 USA;
National Center for Photovoltaics National Renewable Energy Laboratory Golden CO 80401 USA;
National Center for Photovoltaics National Renewable Energy Laboratory Golden CO 80401 USA;
National Center for Photovoltaics National Renewable Energy Laboratory Golden CO 80401 USA;
hole transport layer; nickel oxide; organic photovoltaic; organometallic precursor; PEDOT:PSS;
机译:一种简单的Perylene衍生物,作为钙钛矿太阳能电池的溶液可加工阴极中间层,具有增强的效率和稳定性
机译:碳点阴极中间层通过固溶工艺提高了倒钙钛矿太阳能电池的效率和稳定性
机译:碳点阴极中间层通过固溶工艺提高了倒钙钛矿太阳能电池的效率和稳定性
机译:NiOx /石墨烯/ Si的双重Shottcky增强太阳能电池的效率
机译:溶液处理的有机和有机无机钙钛矿太阳能电池的效率提高
机译:通过使用溶液处理的TiOx / CsOx阴极缓冲层提高倒置聚合物太阳能电池的效率
机译:通过掺入银,增强溶液处理的Cu2zNSN4太阳能电池的开路电压,并通过掺入银具有7.2%的效率