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W2048302533 endingPage "4730" @default.
W2048302533 startingPage "4722" @default.
W2048302533 abstract "Generic design rules for electrode-organic semiconductor contacts that transcend specific materials are urgently required to guide the development of new electrodes and provide a framework for engineering this important class of interface. Herein a novel nanostructured window electrode is utilized in conjunction with three-dimensional electrostatic modeling to elucidate the importance of geometric electric field enhancement effects at the electrode interfaces in organic photovoltaics. The results of this study show that nanoscale protrusions at the electrode surfaces in organic photovoltaics dramatically improve the efficiency of photogenerated charge carrier extraction to the external circuit and that the origin of this improvement is the local amplification of the electrostatic field in the vicinity of said protrusions. This wholly geometric approach to engineering electrodes at the nanoscale is materials generic and can be employed to enhance the efficiency of charge carrier injection or extraction in a wide range of organic electronic devices." @default.
W2048302533 created "2016-06-24" @default.
W2048302533 creator A5040567152 @default.
W2048302533 creator A5046472751 @default.
W2048302533 date "2012-05-15" @default.
W2048302533 modified "2023-09-27" @default.
W2048302533 title "Nanoscale Geometric Electric Field Enhancement in Organic Photovoltaics" @default.
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W2048302533 doi "https://doi.org/10.1021/nn3007042" @default.
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