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Article Abstract
laser Raman spectroscopy was performed on pristine ZnO, ZnMnO, and ZnCoO at pressures up to 18.6, 18.4, and 13.1 GPa, respectively, to explore how minute amount of Mn- and Co-doping affects the high-pressure wurtzite-to-rocksalt transition in ZnO. Pristine ZnO exhibited characteristic wurtzite phonon modes, whereas Mn- and Co-doping introduced distinct local vibrational modes that shifted differently under compression. These shifts revealed that ZnMnO undergoes a unique phase transition path compared to pristine and Co-doped ZnO. By connecting local vibrational features to structural evolution at high pressures, this study demonstrates the capability of Raman spectroscopy to detect doping-induced changes in lattice dynamics. These insights advance our understanding of how local lattice effects influence phase transitions and guide the design of ZnO-based materials with tunable properties for optoelectronic and high-pressure applications.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12144407 | PMC |
| http://dx.doi.org/10.1016/j.isci.2025.112560 | DOI Listing |
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