机译:在有机体异质结光伏中通过整数电荷转移状态进行陷阱辅助的复合。
Division of Surface Physics and Chemistry Department of Physics Chemistry and Biology Linkoeping University SE-58183, Linkoeping, Sweden;
Center for Functional Materials Department for Natural Sciences Abo Akademi University FI-20500, Turku, Finland;
Division of Functional Electronic Materials Department of Physics Chemistry and Biology Linkoeping University SE-58183, Linkoeping, Sweden;
Center for Functional Materials Department for Natural Sciences Abo Akademi University FI-20500, Turku, Finland;
Division of Surface Physics and Chemistry Department of Physics Chemistry and Biology Linkoeping University SE-58183, Linkoeping, Sweden;
Center for Functional Materials Department for Natural Sciences Abo Akademi University FI-20500, Turku, Finland;
Division of Surface Physics and Chemistry Department of Physics Chemistry and Biology Linkoeping University SE-58183, Linkoeping, Sweden;
Division of Functional Electronic Materials Department of Physics Chemistry and Biology Linkoeping University SE-58183, Linkoeping, Sweden;
Center for Functional Materials Department for Natural Sciences Abo Akademi University FI-20500, Turku, Finland;
Division of Surface Physics and Chemistry Department of Physics Chemistry and Biology Linkoeping University SE-58183, Linkoeping, Sweden;
机译:有机体异质结太阳能电池中载流子损失的差分电阻分析:观察从双分子到陷阱辅助重组的过渡并量化重组的顺序
机译:非本体结合与批量异质结有机光伏器件中的电荷转移态相关。
机译:本体异质结有机光伏电池内部TiO2纳米线对电荷扩散和复合的识别作用
机译:从两种观点看体相异质结有机光伏:形态发展和电荷转移
机译:有机光伏:加工驱动的体形态和散装异质结薄膜的性质
机译:聚合物主链氟化对本体异质结有机太阳能电池中电荷产生/重组模式和垂直相分离的影响
机译:在有机体异质结光伏中通过整数电荷转移状态进行陷阱辅助的复合。