INFIQC   05475
INSTITUTO DE INVESTIGACIONES EN FISICO- QUIMICA DE CORDOBA
Unidad Ejecutora - UE
artículos
Título:
Raman and infrared spectroscopy of Sr2BUO6 (B = Ni; Co) double perovskites
Autor/es:
A.F.L. MOREIRA; A.F. GARCÍA-FLORES; E. GRANADO; N.E. MASSA; R.M. PINACCA; J.C. PEDREGOSA; R.E. CARBONIO; A. MUÑOZ; M.J. MARTÍNEZ-LOPE; J.A. ALONSO; L. DEL CAMPO; D. DE SOUSA MENESES; P. ECHEGUT
Revista:
VIBRATIONAL SPECTROSCOPY
Editorial:
ELSEVIER SCIENCE BV
Referencias:
Año: 2010 vol. 54 p. 142 - 147
ISSN:
0924-2031
Resumen:
Temperature dependent normal modes and lattice thermal expansion of Sr2BUO6 (B = Ni, Co) double perovskites were investigated by Raman/infrared spectroscopies and synchrotron X-ray diffraction, respectively. Monoclinic crystal structures with space group P21/n were confirmed for both compounds, with no clear structural phase transition between 10 and 400 K. As predicted for this structure, the firstorder Raman and infrared spectra show a plethora of active modes. In addition, the Raman spectra reveal an enhancement of the integrated area of an oxygen stretching mode, which is also observed in higherorder Raman modes, and an anomalous softening of ¡­1cm−1 upon cooling below T*¡­300 K. In contrast, the infrared spectra show conventional temperature dependence. The band profile phonon anomalies are possibly related to an unspecified electronic property of Sr2BUO6 (B = Ni, Co).2BUO6 (B = Ni, Co) double perovskites were investigated by Raman/infrared spectroscopies and synchrotron X-ray diffraction, respectively. Monoclinic crystal structures with space group P21/n were confirmed for both compounds, with no clear structural phase transition between 10 and 400 K. As predicted for this structure, the firstorder Raman and infrared spectra show a plethora of active modes. In addition, the Raman spectra reveal an enhancement of the integrated area of an oxygen stretching mode, which is also observed in higherorder Raman modes, and an anomalous softening of ¡­1cm−1 upon cooling below T*¡­300 K. In contrast, the infrared spectra show conventional temperature dependence. The band profile phonon anomalies are possibly related to an unspecified electronic property of Sr2BUO6 (B = Ni, Co).P21/n were confirmed for both compounds, with no clear structural phase transition between 10 and 400 K. As predicted for this structure, the firstorder Raman and infrared spectra show a plethora of active modes. In addition, the Raman spectra reveal an enhancement of the integrated area of an oxygen stretching mode, which is also observed in higherorder Raman modes, and an anomalous softening of ¡­1cm−1 upon cooling below T*¡­300 K. In contrast, the infrared spectra show conventional temperature dependence. The band profile phonon anomalies are possibly related to an unspecified electronic property of Sr2BUO6 (B = Ni, Co).¡­1cm−1 upon cooling below T*¡­300 K. In contrast, the infrared spectra show conventional temperature dependence. The band profile phonon anomalies are possibly related to an unspecified electronic property of Sr2BUO6 (B = Ni, Co).2BUO6 (B = Ni, Co).