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Pressure-Dependent Structure of BaZrO3 Crystals as Determined by Raman Spectroscopyopen access

Authors
Gim, Dong-HyeonSur, YeahanLee, Yoon HanLee, Jeong HyukMoon, SoonjaeOh, Yoon SeokKim, Kee Hoon
Issue Date
Jun-2022
Publisher
MDPI
Keywords
barium zirconate; crystal structure; hydrostatic pressure; phase transition; Raman spectroscopy; infrared spectroscopy
Citation
MATERIALS, v.15, no.12, pp 1 - 13
Pages
13
Indexed
SCIE
SCOPUS
Journal Title
MATERIALS
Volume
15
Number
12
Start Page
1
End Page
13
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/203121
DOI
10.3390/ma15124286
ISSN
1996-1944
1996-1944
Abstract
The structure of dielectric perovskite BaZrO3, long known to be cubic at room temperature without any structural phase transition with variation in temperature, has been recently disputed to have different ground state structures with lower symmetries involving octahedra rotation. Pressure-dependent Raman scattering measurements can identify the hierarchy of energetically-adjacent polymorphs, helping in turn to understand its ground state structure at atmospheric pressure. Here, the Raman scattering spectra of high-quality BaZrO3 single crystals grown by the optical floating zone method are investigated in a pressure range from 1 atm to 42 GPa. First, based on the analyses of the infrared and Raman spectra measured at atmospheric pressure, it was found that all the observed vibrational modes could be assigned according to the cubic Pm3 over bar m structure. In addition, by applying pressure, two structural phase transitions were found at 8.4 and 19.2 GPa, one from the cubic to the rhombohedral R3 over bar c phase and the other from the rhombohedral to the tetragonal I4/mcm phase. Based on the two pressure-induced structural phase transitions, the true ground state structure of BaZrO3 at room temperature and ambient pressure was corroborated to be cubic while the rhombohedral phase was the closest second.
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