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机译:发光量子簇由22个AU原子组成的效果在低强度照明下半透明塑料太阳能电池性能下的性能
Surface Technology Division Korea Institute of Materials Science (KIMS);
Surface Technology Division Korea Institute of Materials Science (KIMS);
Department of Chemistry Yonsei University;
Department of Chemistry Yonsei University;
Surface Technology Division Korea Institute of Materials Science (KIMS);
Advanced Photonics Research Institute (APRI) Gwangju Institute of Science and Technology (GIST);
Advanced Photonics Research Institute (APRI) Gwangju Institute of Science and Technology (GIST);
Department of Physics and Energy Harvest Storage Research Center (EHSRC) University of Ulsan;
Surface Technology Division Korea Institute of Materials Science (KIMS);
Department of Physics and Energy Harvest Storage Research Center (EHSRC) University of Ulsan;
Semi-transparent solar cells; Bulk-heterojunction; Building-integrated photovoltaics; Au cluster; Low intensity illumination;
机译:发光量子簇由22个AU原子组成的效果在低强度照明下半透明塑料太阳能电池性能下的性能
机译:纳米结构太阳能电池的发展:高强度照明(≥50太阳)下染料敏化,聚合物/ PCBM和钙钛矿型太阳能电池的性能,染料/电解质界面化学的研究以及稳定的钴电解质DS。
机译:低浓度照明下硅量子点太阳能电池性能评估的理论框架
机译:金属聚类敏化太阳能电池的纳米结构TiO_2层和Au_(22)(SG)_(18)簇之间的异肠接近的能带对准
机译:使用纳米结构的多结太阳能电池的带隙工程,可提高其在集中照明下的性能。
机译:由金原子和单空位石墨烯组成的蜂窝双层分子中的高温量子异常霍尔效应
机译:太阳能电池:基于亚域尺寸的AU38芯的发光纳米单元,用于提高倒置有机光伏电池的性能(ADV。能源。13/2015)
机译:CIs太阳能电池温度照射强度依赖性能的数值模拟