Hot electron injection into semiconducting polymers in polymer based-perovskite solar cells and their fate

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Hot electron injection into semiconducting polymers in polymer based-perovskite solar cells and their fate

机译：热电子注入半导体聚合物在聚合物based-perovskite太阳能电池和他们的命运

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Metal halide perovskites are known to possess upon photoexcitation long-lived hot carriers. By using femtosecond laser transient absorption spectroscopy, we probed in the current work interfacial charge transfer, that is, hot electrons and holes in methylammonium lead iodide perovskite. The focus was, on the one hand, on titanium dioxide as an electron transporting material and, on the other hand, on several organic semiconducting materials as hole transporting materials in perovskite solar cells. An unexpected carrier loss pathway for hot electrons was found in the form of injection into the low lying LUMOs of several organic semiconducting materials. Of great importance is the fact that the final photocurrents of perovskite solar cells scale with the suppression of this newly discovered loss pathway.

机译：金属卤化物钙钛矿已知拥有光致激发长寿热运营商。飞秒激光瞬态吸收光谱,我们探索在当前工作界面电荷转移,即热电子和空穴在methylammonium碘化铅钙钛矿。二氧化钛作为一种电子运输材料,另一方面,在一些有机半导体材料的孔运输在钙钛矿材料的太阳能电池。一个意想不到的载波通道热损失电子注入的形式被发现一些有机的低洼lumo半导体材料。最后的光电流的事实钙钛矿与抑制太阳能电池规模这个新发现的损失途径。

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《Nanoscale》 |2019年第48期|23357-23365|共9页
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正文语种英语
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关键词
methylammonium ion; ELECTRON INJECTION; titanium dioxideiodidesFatetransportsolar cellsHot electronsSemiconducting polymersperovskitehot-electron injection;

机译：methylammonium离子、电子注入钛dioxideiodidesFatetransportsolar cellsHotelectronsSemiconductingpolymersperovskitehot-electron注入;

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Hot electron injection into semiconducting polymers in polymer based-perovskite solar cells and their fate

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