Long‐Lived Multiple Charge Separation by Proton‐Coupled Electron Transfer

Multiple charge separation has been successfully realized by a proton‐coupled electron transfer reaction in an organic cocrystal. Benefiting from the adjustable electronic energy level of the electron donor and acceptor through thermal‐induced proton migration, distinct optical absorption behaviors...

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Veröffentlicht in:	Angewandte Chemie International Edition 2023-03, Vol.62 (12), p.e202215591-n/a
Hauptverfasser:	Yang, Xiao‐Dong, Zhou, Jun‐Hao, Cui, Jing‐Wang, Yang, Jie, Jia, Hong‐Peng, Sun, Jian‐Ke, Zhang, Jie
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorption Antibacterial Application Charge transfer Coplanarity Electron Transfer Energy levels Multiple Charge Separation Photothermal conversion Photothermal Imaging Proton Migration Protons Separation Wavelengths
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container_title	Angewandte Chemie International Edition
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creator	Yang, Xiao‐Dong Zhou, Jun‐Hao Cui, Jing‐Wang Yang, Jie Jia, Hong‐Peng Sun, Jian‐Ke Zhang, Jie
description	Multiple charge separation has been successfully realized by a proton‐coupled electron transfer reaction in an organic cocrystal. Benefiting from the adjustable electronic energy level of the electron donor and acceptor through thermal‐induced proton migration, distinct optical absorption behaviors combined with color changes to blue or green are observed in these charge‐separated states. It is of interest to note that such charge‐separated states exhibit a longer lifetime of over a month as a result of the excellent coplanarity and π‐π interaction of the electron acceptors. Moreover, the enhanced absorption toward longer wavelengths endows the charge‐separated state with near‐infrared (808 nm) photothermal conversion for imaging and bacterial inhibition, whereby the conversion performance can be controlled by the degree of proton migration. Multiple charge separation with a long lifetime has been realized in an organic cocrystal by a proton‐coupled electron‐transfer reaction under irradiation with light. The enhanced absorption toward longer wavelengths can be applied for near‐infrared imaging and bacterial inhibition.
doi_str_mv	10.1002/anie.202215591
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Benefiting from the adjustable electronic energy level of the electron donor and acceptor through thermal‐induced proton migration, distinct optical absorption behaviors combined with color changes to blue or green are observed in these charge‐separated states. It is of interest to note that such charge‐separated states exhibit a longer lifetime of over a month as a result of the excellent coplanarity and π‐π interaction of the electron acceptors. Moreover, the enhanced absorption toward longer wavelengths endows the charge‐separated state with near‐infrared (808 nm) photothermal conversion for imaging and bacterial inhibition, whereby the conversion performance can be controlled by the degree of proton migration. Multiple charge separation with a long lifetime has been realized in an organic cocrystal by a proton‐coupled electron‐transfer reaction under irradiation with light. 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Benefiting from the adjustable electronic energy level of the electron donor and acceptor through thermal‐induced proton migration, distinct optical absorption behaviors combined with color changes to blue or green are observed in these charge‐separated states. It is of interest to note that such charge‐separated states exhibit a longer lifetime of over a month as a result of the excellent coplanarity and π‐π interaction of the electron acceptors. Moreover, the enhanced absorption toward longer wavelengths endows the charge‐separated state with near‐infrared (808 nm) photothermal conversion for imaging and bacterial inhibition, whereby the conversion performance can be controlled by the degree of proton migration. Multiple charge separation with a long lifetime has been realized in an organic cocrystal by a proton‐coupled electron‐transfer reaction under irradiation with light. 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subjects	Absorption Antibacterial Application Charge transfer Coplanarity Electron Transfer Energy levels Multiple Charge Separation Photothermal conversion Photothermal Imaging Proton Migration Protons Separation Wavelengths
title	Long‐Lived Multiple Charge Separation by Proton‐Coupled Electron Transfer
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