Phonon Anharmonicity of PdO Studied by Raman Spectrometry

Raman spectra were measured for palladium oxide (PdO) at temperatures from 298 to 973 K. The first-order scattering B1g and Eg phonon modes show prominent frequency and line width dependencies on temperature. The phonon behaviors are described well by a model considering contributions from thermal e...

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Veröffentlicht in:	Journal of physical chemistry. C 2015-10, Vol.119 (40), p.23094-23102
Hauptverfasser:	Zhao, Zhouying, Elwood, Jacqueline, Carpenter, Michael A
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container_title	Journal of physical chemistry. C
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creator	Zhao, Zhouying Elwood, Jacqueline Carpenter, Michael A
description	Raman spectra were measured for palladium oxide (PdO) at temperatures from 298 to 973 K. The first-order scattering B1g and Eg phonon modes show prominent frequency and line width dependencies on temperature. The phonon behaviors are described well by a model considering contributions from thermal expansion related quasiharmonicity and explicit lattice anharmonicity from both cubic and quartic phonon decay processes. Compared to the quasiharmonicity for the line shift, the explicit anharmonicity is found to be relatively smaller for the B1g mode with the cubic anharmonicity leading the quartic term. The Eg mode has a smaller line shift which mostly follows a quartic phonon decay mechanism while the cubic contribution is canceled by thermal expansion effects. The cubic anharmonicity dominates mostly the line broadening with more prominent quartic effects responsible for the larger broadening of the Eg mode. Multiple potential asymmetric cubic and quartic anharmonic decay channels including down-conversion and up-conversion are identified with their characteristics discussed and correlated to the positive and negative anhamonicities found for the two phonon modes studied.
doi_str_mv	10.1021/acs.jpcc.5b07652
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The phonon behaviors are described well by a model considering contributions from thermal expansion related quasiharmonicity and explicit lattice anharmonicity from both cubic and quartic phonon decay processes. Compared to the quasiharmonicity for the line shift, the explicit anharmonicity is found to be relatively smaller for the B1g mode with the cubic anharmonicity leading the quartic term. The Eg mode has a smaller line shift which mostly follows a quartic phonon decay mechanism while the cubic contribution is canceled by thermal expansion effects. The cubic anharmonicity dominates mostly the line broadening with more prominent quartic effects responsible for the larger broadening of the Eg mode. Multiple potential asymmetric cubic and quartic anharmonic decay channels including down-conversion and up-conversion are identified with their characteristics discussed and correlated to the positive and negative anhamonicities found for the two phonon modes studied.</abstract><pub>American Chemical Society</pub><doi>10.1021/acs.jpcc.5b07652</doi><tpages>9</tpages></addata></record>
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