Normal and inverted regimes of charge transfer controlled by density of states at polymer electrodes

Normal and inverted regimes of charge transfer controlled by density of states at polymer electrodes

Charge transfer at conductive polymer/liquid interfaces critically affects the performance of organic bioelectronics and energy conversion/storage devices. Here, the authors provide a mechanistic framework to describe charge-transfer rates in the context of hybrid ionic–electronic conductivity.

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Bibliographic Details
Main Authors: M. Rudolph, E. L. Ratcliff
Format: article
Language:EN
Published: Nature Portfolio 2017
Subjects:
Science
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Online Access:https://doaj.org/article/18ca43b6d7624452a19faff2fd251dee
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Summary:Charge transfer at conductive polymer/liquid interfaces critically affects the performance of organic bioelectronics and energy conversion/storage devices. Here, the authors provide a mechanistic framework to describe charge-transfer rates in the context of hybrid ionic–electronic conductivity.

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