Pressure-dependent phase transition of 2D layered silicon telluride(Si2le3)and manganese intercalated silicon telluride  被引量:1

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作  者:Virginia L. Johnson Auddy Anilao Kristie J. Koski 

机构地区:[1]Department of Chemistry,University of California,Davis,Davis,CA 95616,USA

出  处:《Nano Research》2019年第9期2373-2377,共5页纳米研究(英文版)

摘  要:Two-dimensional(2D)layered silicon telluride(SizTes)nanocrystals were compressed to 12 GPa using diamond anvil cell techniques.Optical measurements show a color change from transparent red to opaque black indicating a semiconductor-to-metal phase transition.Raman scattering was used to observe the stiffening of the crystal lattice and subsequent phase behavior.A possible phase transition was observed.at 9.5±0.5 GPa evidenced by the disappearance of the Atg stretching mode.SizTes was intercalated with elemental manganese to^1 at.%.Intercalation lowers the pressure of the proposed phase transition to 7.5±1 GPa.Raman modes show both phonon stiffening and phonon softening,suggesting negative linear compressibility.These results provide fundamental insight into the high-pressure optical phonon behavior of silicon telluride and illuminate how a specific electron-donating intercalant can chemically alter pressure-dependent optical phonon behavior.

关 键 词:SILICON TELLURIDE Si2Te3 high PRESSURE diamond ANVIL cell two-dimensional(2D)layered material 

分 类 号:O4[理学—物理]

 

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