机译:CdTe太阳能电池中Cl和Cu引起的短路效率变化的直接成像
Materials Science and Technology Division Oak Ridge National Laboratory TN USA;
Materials Science and Engineering 414 Ferris Hall 1508 Middle Dr. The University of Tennessee Knoxville TN USA;
The University of Toledo Department of Physics and Astronomy McMaster Hall Toledo OH USA;
Materials Science and Technology Division Oak Ridge National Laboratory TN USA;
Department of Chemistry Vanderbilt University Department of Chemistry Nashville TN USA;
Materials Science and Technology Division Oak Ridge National Laboratory TN USA;
Materials Science and Technology Division Oak Ridge National Laboratory TN USA;
The University of Toledo Department of Physics and Astronomy McMaster Hall Toledo OH USA;
Materials Science and Engineering 414 Ferris Hall 1508 Middle Dr. The University of Tennessee Knoxville TN USA;
photovoltaic devices; solar cells; thin films; scanning transmission electron microscopy; electron beam induced current;
机译:薄膜:CdTe太阳能电池中由Cl和Cu引起的短路效率变化的直接成像(Adv。Energy Mater。15/2014)
机译:使用全电沉积半导体的高短路电流密度CdTe太阳能电池
机译:CdTe太阳能电池中光电流和效率的纳米级成像
机译:氟利昂气体取代CdCl_2处理CdTe薄膜制备的高效CdTe / CdS薄膜太阳能电池
机译:优化前接触以最大程度地减少CdTe薄膜太阳能电池的短路电流损耗
机译:一锅合成具有出色生物相容性的GSH封端的CdTe量子点可用于直接细胞成像
机译:实现基于CdTe的薄膜太阳能电池理论效率的基本研究方向