Electric Field–Controlled Multistep Proton Evolution in HxSrCoO2.5 with Formation of H–H Dimer

Hao‐Bo Li; Feng Lou; Yujia Wang; Yang Zhang; Qinghua Zhang; Dong Wu; Zhuolu Li; Meng Wang; Tongtong Huang; Yingjie Lyu; Jingwen Guo; Tianzhe Chen; Yang Wu; Elke Arenholz; Nianpeng Lu; Nanlin Wang; Qing He; Lin Gu; Jing Zhu; Ce‐Wen Nan; Xiaoyan Zhong; Hongjun Xiang; Pu Yu

doi:10.1002/advs.201901432

Advanced Science (Oct 2019)

Electric Field–Controlled Multistep Proton Evolution in HxSrCoO2.5 with Formation of H–H Dimer

Hao‐Bo Li,
Feng Lou,
Yujia Wang,
Yang Zhang,
Qinghua Zhang,
Dong Wu,
Zhuolu Li,
Meng Wang,
Tongtong Huang,
Yingjie Lyu,
Jingwen Guo,
Tianzhe Chen,
Yang Wu,
Elke Arenholz,
Nianpeng Lu,
Nanlin Wang,
Qing He,
Lin Gu,
Jing Zhu,
Ce‐Wen Nan,
Xiaoyan Zhong,
Hongjun Xiang,
Pu Yu

Affiliations

Hao‐Bo Li: State Key Laboratory of Low Dimensional Quantum Physics and Department of Physics Tsinghua University Beijing 100084 China
Feng Lou: Key Laboratory of Computational Physical Sciences (Ministry of Education) State Key Laboratory of Surface Physics, and Department of Physics Fudan University Shanghai 200433 China
Yujia Wang: State Key Laboratory of Low Dimensional Quantum Physics and Department of Physics Tsinghua University Beijing 100084 China
Yang Zhang: National Center for Electron Microscopy in Beijing Key Laboratory of Advanced Materials (MOE) Beijing 100084 China
Qinghua Zhang: Beijing National Laboratory for Condensed Matter Physics Institute of Physics Chinese Academy of Sciences Beijing 100190 China
Dong Wu: Collaborative Innovation Center of Quantum Matter Beijing 100084 China
Zhuolu Li: State Key Laboratory of Low Dimensional Quantum Physics and Department of Physics Tsinghua University Beijing 100084 China
Meng Wang: State Key Laboratory of Low Dimensional Quantum Physics and Department of Physics Tsinghua University Beijing 100084 China
Tongtong Huang: State Key Laboratory of Low Dimensional Quantum Physics and Department of Physics Tsinghua University Beijing 100084 China
Yingjie Lyu: State Key Laboratory of Low Dimensional Quantum Physics and Department of Physics Tsinghua University Beijing 100084 China
Jingwen Guo: State Key Laboratory of Low Dimensional Quantum Physics and Department of Physics Tsinghua University Beijing 100084 China
Tianzhe Chen: State Key Laboratory of Low Dimensional Quantum Physics and Department of Physics Tsinghua University Beijing 100084 China
Yang Wu: State Key Laboratory of Low Dimensional Quantum Physics and Department of Physics Tsinghua University Beijing 100084 China
Elke Arenholz: Advanced Light Source Lawrence Berkeley National Laboratory Berkeley 94720 CA USA
Nianpeng Lu: State Key Laboratory of Low Dimensional Quantum Physics and Department of Physics Tsinghua University Beijing 100084 China
Nanlin Wang: International Center for Quantum Materials School of Physics Peking University Beijing 100871 China
Qing He: Department of Physics Durham University Durham DH13LE UK
Lin Gu: Beijing National Laboratory for Condensed Matter Physics Institute of Physics Chinese Academy of Sciences Beijing 100190 China
Jing Zhu: National Center for Electron Microscopy in Beijing Key Laboratory of Advanced Materials (MOE) Beijing 100084 China
Ce‐Wen Nan: State Key Laboratory of New Ceramics and Fine Processing School of Materials Science and Engineering Tsinghua University Beijing 100084 China
Xiaoyan Zhong: National Center for Electron Microscopy in Beijing Key Laboratory of Advanced Materials (MOE) Beijing 100084 China
Hongjun Xiang: Key Laboratory of Computational Physical Sciences (Ministry of Education) State Key Laboratory of Surface Physics, and Department of Physics Fudan University Shanghai 200433 China
Pu Yu: State Key Laboratory of Low Dimensional Quantum Physics and Department of Physics Tsinghua University Beijing 100084 China

DOI: https://doi.org/10.1002/advs.201901432
Journal volume & issue: Vol. 6, no. 20
pp. n/a – n/a

Abstract

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Abstract Ionic evolution–induced phase transformation can lead to wide ranges of novel material functionalities with promising applications. Here, using the gating voltage during ionic liquid gating as a tuning knob, the brownmillerite SrCoO2.5 is transformed into a series of protonated HxSrCoO2.5 phases with distinct hydrogen contents. The unexpected electron to charge‐neutral doping crossover along with the increase of proton concentration from x = 1 to 2 suggests the formation of exotic charge neutral H–H dimers for higher proton concentration, which is directly visualized at the vacant tetrahedron by scanning transmission electron microscopy and then further supported by first principles calculations. Although the H–H dimers cause no change of the valency of Co2+ ions, they result in clear enhancement of electronic bandgap and suppression of magnetization through lattice expansion. These results not only reveal a hydrogen chemical state beyond anion and cation within the complex oxides, but also suggest an effective pathway to design functional materials through tunable ionic evolution.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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