High‐Conductive Protonated Layered Oxides from H 2 O Vapor‐Annealed Brownmillerites

Protonated 3d transition‐metal oxides often display low electronic conduction, which hampers their application in electric, magnetic, thermoelectric, and catalytic fields. Electronic conduction can be enhanced by co‐inserting oxygen acceptors simultaneously. However, the currently used redox approac...

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Veröffentlicht in:	Advanced materials (Weinheim) 2021-12, Vol.33 (48)
Hauptverfasser:	Hu, Songbai, Zhu, Yuanmin, Han, Wenqiao, Li, Xiaowen, Ji, Yanjiang, Ye, Mao, Jin, Cai, Liu, Qi, Hu, Sixia, Wang, Jiaou, Wang, Junling, He, Jiaqing, Cazorla, Claudio, Chen, Lang
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container_title	Advanced materials (Weinheim)
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creator	Hu, Songbai Zhu, Yuanmin Han, Wenqiao Li, Xiaowen Ji, Yanjiang Ye, Mao Jin, Cai Liu, Qi Hu, Sixia Wang, Jiaou Wang, Junling He, Jiaqing Cazorla, Claudio Chen, Lang
description	Protonated 3d transition‐metal oxides often display low electronic conduction, which hampers their application in electric, magnetic, thermoelectric, and catalytic fields. Electronic conduction can be enhanced by co‐inserting oxygen acceptors simultaneously. However, the currently used redox approaches hinder protons and oxygen ions co‐insertion due to the selective switching issues. Here, a thermal hydration strategy for systematically exploring the synthesis of conductive protonated oxides from 3d transition‐metal oxides is introduced. This strategy is illustrated by synthesizing a novel layered‐oxide SrCoO 3 H from the brownmillerite SrCoO 2.5 . Compared to the insulating SrCoO 2.5 , SrCoO 3 H exhibits an unprecedented high electronic conductivity above room temperature, water uptake at 250 °C, and a thermoelectric power factor of up to 1.2 mW K −2 m −1 at 300 K. These findings open up opportunities for creating high‐conductive protonated layered oxides by protons and oxygen ions co‐doping.
doi_str_mv	10.1002/adma.202104623
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title	High‐Conductive Protonated Layered Oxides from H 2 O Vapor‐Annealed Brownmillerites
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