A tailored double perovskite nanofiber catalyst enables ultrafast oxygen evolution

A tailored double perovskite nanofiber catalyst enables ultrafast oxygen evolution

The design of efficient and stable oxygen evolution catalysts has implications for water splitting and metal-air battery technology. Here, the authors fabricate double perovskite nanofibers and demonstrate the favourable effects of co-doping and nanostructuring on oxygen evolution performance.

Bibliographic Details
Main Authors: Bote Zhao, Lei Zhang, Dongxing Zhen, Seonyoung Yoo, Yong Ding, Dongchang Chen, Yu Chen, Qiaobao Zhang, Brian Doyle, Xunhui Xiong, Meilin Liu
Format: Article
Language:English
Published: Nature Publishing Group 2017-02-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/ncomms14586
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spelling doaj-d3b85450f4bf4c6e99d1d606ff7f2c372021-05-11T07:19:13ZengNature Publishing GroupNature Communications2041-17232017-02-01811910.1038/ncomms14586A tailored double perovskite nanofiber catalyst enables ultrafast oxygen evolutionBote Zhao0Lei Zhang1Dongxing Zhen2Seonyoung Yoo3Yong Ding4Dongchang Chen5Yu Chen6Qiaobao Zhang7Brian Doyle8Xunhui Xiong9Meilin Liu10School of Materials Science and Engineering, Georgia Institute of TechnologySchool of Materials Science and Engineering, Georgia Institute of TechnologySchool of Materials Science and Engineering, Georgia Institute of TechnologySchool of Materials Science and Engineering, Georgia Institute of TechnologySchool of Materials Science and Engineering, Georgia Institute of TechnologySchool of Materials Science and Engineering, Georgia Institute of TechnologySchool of Materials Science and Engineering, Georgia Institute of TechnologySchool of Materials Science and Engineering, Georgia Institute of TechnologySchool of Materials Science and Engineering, Georgia Institute of TechnologySchool of Materials Science and Engineering, Georgia Institute of TechnologySchool of Materials Science and Engineering, Georgia Institute of TechnologyThe design of efficient and stable oxygen evolution catalysts has implications for water splitting and metal-air battery technology. Here, the authors fabricate double perovskite nanofibers and demonstrate the favourable effects of co-doping and nanostructuring on oxygen evolution performance.https://doi.org/10.1038/ncomms14586
collection DOAJ
language English
format Article
sources DOAJ
author Bote Zhao
Lei Zhang
Dongxing Zhen
Seonyoung Yoo
Yong Ding
Dongchang Chen
Yu Chen
Qiaobao Zhang
Brian Doyle
Xunhui Xiong
Meilin Liu
spellingShingle Bote Zhao
Lei Zhang
Dongxing Zhen
Seonyoung Yoo
Yong Ding
Dongchang Chen
Yu Chen
Qiaobao Zhang
Brian Doyle
Xunhui Xiong
Meilin Liu
A tailored double perovskite nanofiber catalyst enables ultrafast oxygen evolution
Nature Communications
author_facet Bote Zhao
Lei Zhang
Dongxing Zhen
Seonyoung Yoo
Yong Ding
Dongchang Chen
Yu Chen
Qiaobao Zhang
Brian Doyle
Xunhui Xiong
Meilin Liu
author_sort Bote Zhao
title A tailored double perovskite nanofiber catalyst enables ultrafast oxygen evolution
title_short A tailored double perovskite nanofiber catalyst enables ultrafast oxygen evolution
title_full A tailored double perovskite nanofiber catalyst enables ultrafast oxygen evolution
title_fullStr A tailored double perovskite nanofiber catalyst enables ultrafast oxygen evolution
title_full_unstemmed A tailored double perovskite nanofiber catalyst enables ultrafast oxygen evolution
title_sort tailored double perovskite nanofiber catalyst enables ultrafast oxygen evolution
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2017-02-01
description The design of efficient and stable oxygen evolution catalysts has implications for water splitting and metal-air battery technology. Here, the authors fabricate double perovskite nanofibers and demonstrate the favourable effects of co-doping and nanostructuring on oxygen evolution performance.
url https://doi.org/10.1038/ncomms14586
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