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Temperature-dependent microstructural evolution in a compositionally complex solid electrolyte:The role of a grain boundary transition

Shu-Ting Ko Chaojie Du Huiming Guo Hasti Vahidi Jenna L.Wardini Tom Lee Yi Liu Jingjing Yang Francisco Guzman Timothy J.Rupert William J.Bowman Shen J.Dillon Xiaoqing Pan Jian Luo

Journal of Advanced Ceramics2025,Vol.14Issue(3):P.163-176,14.
Journal of Advanced Ceramics2025,Vol.14Issue(3):P.163-176,14.DOI:10.26599/JAC.2025.9221047

Temperature-dependent microstructural evolution in a compositionally complex solid electrolyte:The role of a grain boundary transition

Shu-Ting Ko 1Chaojie Du 2Huiming Guo 2Hasti Vahidi 2Jenna L.Wardini 2Tom Lee 2Yi Liu 2Jingjing Yang 1Francisco Guzman 2Timothy J.Rupert 2William J.Bowman 2Shen J.Dillon 2Xiaoqing Pan 3Jian Luo1

作者信息

  • 1. Aiiso Yufeng Li Family Department of Chemical and Nano Engineering,University of California San Diego,La Jolla,California 92093,USA Program in Materials Science and Engineering,University of California San Diego,La Jolla,California 92093,USA
  • 2. Department of Materials Science and Engineering,University of California Irvine,Irvine,California 92697,USA
  • 3. Department of Materials Science and Engineering,University of California Irvine,Irvine,California 92697,USA Department of Physics and Astronomy,University of California Irvine,Irvine,California 92697,USA Irvine Materials Research Institute,University of California Irvine,Irvine,California 92697,USA
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摘要

关键词

compositionally complex ceramics(CCCs)/solid electrolytes/perovskite/grain growth/grain boundary(GB)/electron backscatter diffraction(EBSD)

分类

化学化工

引用本文复制引用

Shu-Ting Ko,Chaojie Du,Huiming Guo,Hasti Vahidi,Jenna L.Wardini,Tom Lee,Yi Liu,Jingjing Yang,Francisco Guzman,Timothy J.Rupert,William J.Bowman,Shen J.Dillon,Xiaoqing Pan,Jian Luo..Temperature-dependent microstructural evolution in a compositionally complex solid electrolyte:The role of a grain boundary transition[J].Journal of Advanced Ceramics,2025,14(3):P.163-176,14.

基金项目

supported by the National Science Foundation(NSF)Materials Research Science and Engineering Center(MRSEC)program through the UC Irvine Center for Complex and Active Materials(CCAM)under No.DMR2011967 (NSF)

This work used shared facilities at the Irvine Materials Research Institute(also supported in part by the NSF DMR2011967) (also supported in part by the NSF DMR2011967)

the San Diego Nanotechnology Infrastructure(SDNI)of UCSD,a member of the National Nanotechnology Coordinated Infrastructure(NSF ECCS-2025752) (SDNI)

the NSF Center for Chemistry at the Space–Time Limit(CHE-0802913) (CHE-0802913)

the UC San Diego MRSEC shared instrumentation(NSF Grant DMR2011924) (NSF Grant DMR2011924)

the UC San Diego Nanoengineering Materials Research Center(NE-MRC). (NE-MRC)

Journal of Advanced Ceramics

2226-4108

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