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Main Authors: Perry, K., Roy, A. T., Parmenter, A. R., Ryu, Y. J., Prakapenka, V. B., Lim, J.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.01890
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author Perry, K.
Roy, A. T.
Parmenter, A. R.
Ryu, Y. J.
Prakapenka, V. B.
Lim, J.
author_facet Perry, K.
Roy, A. T.
Parmenter, A. R.
Ryu, Y. J.
Prakapenka, V. B.
Lim, J.
contents We report a high-pressure Raman spectroscopy study of a graphite-water mixture using water as the pressure-transmitting medium up to 9.9 GPa. In the graphite-rich region, three characteristic Raman features-the $E_{2g}^{(1)}$ shear mode, the G band ($E_{2g}^{(2)}$), and the 2D band-were observed and tracked as a function of pressure. The G band exhibits a pronounced blue shift with increasing pressure, indicating enhanced interlayer coupling between graphite planes. In the water-rich region, the librational band and three distinct O-H stretching modes were identified. Notably, above 8 GPa, the slope of the pressure dependence decreases relative to the earlier report, likely due to the influence of the water pressure medium, emphasizing the need for further investigation at higher pressures.
format Preprint
id arxiv_https___arxiv_org_abs_2509_01890
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Raman spectroscopy of graphite with water as the pressure medium
Perry, K.
Roy, A. T.
Parmenter, A. R.
Ryu, Y. J.
Prakapenka, V. B.
Lim, J.
Materials Science
We report a high-pressure Raman spectroscopy study of a graphite-water mixture using water as the pressure-transmitting medium up to 9.9 GPa. In the graphite-rich region, three characteristic Raman features-the $E_{2g}^{(1)}$ shear mode, the G band ($E_{2g}^{(2)}$), and the 2D band-were observed and tracked as a function of pressure. The G band exhibits a pronounced blue shift with increasing pressure, indicating enhanced interlayer coupling between graphite planes. In the water-rich region, the librational band and three distinct O-H stretching modes were identified. Notably, above 8 GPa, the slope of the pressure dependence decreases relative to the earlier report, likely due to the influence of the water pressure medium, emphasizing the need for further investigation at higher pressures.
title Raman spectroscopy of graphite with water as the pressure medium
topic Materials Science
url https://arxiv.org/abs/2509.01890