| Literature DB >> 27251879 |
Jinlong Zhu1, Yonggang Wang1,2,3, Shuai Li1, John W Howard1, Jörg Neuefeind4, Yang Ren5, Hui Wang6, Chengdu Liang6, Wenge Yang2,7, Ruqiang Zou8, Changqing Jin9, Yusheng Zhao1.
Abstract
Na-rich antiperovskites are recently developed solid electrolytes with enhanced sodium ionic conductivity and show promising functionality as a novel solid electrolyte in an all solid-state battery. In this work, the sodium ionic transport pathways of the parent compound Na3OBr, as well as the modified layered antiperovskite Na4OI2, were studied and compared through temperature-dependent neutron diffraction combined with the maximum entropy method. In the cubic Na3OBr antiperovskite, the nuclear density distribution maps at 500 K indicate that sodium ions hop within and among oxygen octahedra, and Br(-) ions are not involved. In the tetragonal Na4OI2 antiperovskite, Na ions, which connect octahedra in the ab plane, have the lowest activation energy barrier. The transport of sodium ions along the c axis is assisted by I(-) ions.Entities:
Year: 2016 PMID: 27251879 DOI: 10.1021/acs.inorgchem.6b00444
Source DB: PubMed Journal: Inorg Chem ISSN: 0020-1669 Impact factor: 5.165