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机译:金量子点增强有机薄膜太阳能电池的研究
Graduate School of Science and TechnologyNiigata University8050 Ikarashi‐2‐nocho Nishi‐ku Niigata 950‐2181 Japan;
Graduate School of Science and TechnologyNiigata University8050 Ikarashi‐2‐nocho Nishi‐ku Niigata 950‐2181 Japan;
Graduate School of Science and TechnologyNiigata University8050 Ikarashi‐2‐nocho Nishi‐ku Niigata 950‐2181 Japan;
Graduate School of Science and TechnologyNiigata University8050 Ikarashi‐2‐nocho Nishi‐ku Niigata 950‐2181 Japan;
Graduate School of Science and TechnologyNiigata University8050 Ikarashi‐2‐nocho Nishi‐ku Niigata 950‐2181 Japan;
Graduate School of Science and TechnologyNiigata University8050 Ikarashi‐2‐nocho Nishi‐ku Niigata 950‐2181 Japan;
Graduate School of Science and TechnologyNiigata University8050 Ikarashi‐2‐nocho Nishi‐ku Niigata 950‐2181 Japan;
Sensor Research UnitChulalongkorn University254 Phyathai Rd Patumwan Bangkok 10330 Thailand;
Graduate School of Science and TechnologyNiigata University8050 Ikarashi‐2‐nocho Nishi‐ku Niigata 950‐2181 Japan;
finite‐different time‐domains (FDTDs); fluorescence; gold quantum dots (AuQDs); localized surface plasmons;
机译:金量子点增强有机薄膜太阳能电池的研究
机译:掺银的TiO_2纳米晶薄膜增强量子点敏化太阳能电池的光伏性能
机译:短长度的TiO2纳米棒阵列和紧凑的PbS量子点薄膜的组合,可实现高效的固态量子点敏化太阳能电池
机译:金量子点 - 金纳米粒子增强有机薄膜太阳能电池的研究
机译:表面等离子体优化以增强薄膜有机太阳能电池中的光电流。
机译:嵌入氮化硅薄膜中的硅量子点与金纳米粒子在发光器件中的耦合增强了电致发光
机译:光伏:黄金量子点增强有机薄膜太阳能电池的研究(部分。部分。SYST。挑战。11/2017)