Spectral investigation of the phase-transition behavior in (DOEO)4HgBr4ADTTCE salt

Spectral investigation of the phase-transition behavior in (DOEO)4HgBr4ADTTCE salt

Room temperature electrical conductivity of (DOEO)4HgBr4ADTTCE single crystals measured along the a-direction is of the order of 1 S/cm, while perpendicularly to this direction is almost five orders of magnitude smaller. Besides, on cooling the resistivity increases until a maximum reached around 14...

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Bibliographic Details
Published in:Optical materials Vol. 34; no. 10; pp. 1651 - 1655
Main Authors: Lapinski, Andrzej, Gasecka, Alicja, Graja, Andrzej, Waplak, Stefan, Ostrowski, Adam, Kotov, Alexander I
Format: Journal Article
Language:English
Published: 01-08-2012
Subjects:
Electrical resistivity
Ethylene
Evolution
Infrared radiation
Localization
Resistivity
Spectra
Splitting
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Summary:Room temperature electrical conductivity of (DOEO)4HgBr4ADTTCE single crystals measured along the a-direction is of the order of 1 S/cm, while perpendicularly to this direction is almost five orders of magnitude smaller. Besides, on cooling the resistivity increases until a maximum reached around 140 K, becomes metallic in the lower temperature, and finally undergoes an insulating transition around 50 K. To add some new observations and explain these interesting properties of the salt we present extended investigations of its spectral properties. In this paper, we discuss the temperature EPR studies of (DOEO)4HgBr4ADTTCE salt as well as the evolution of its IR spectra vs. temperature. In particular, the analysis of changes of selected normal modes wavenumbers is discussed. Significant changes of EPR shape and characteristic line splitting were observed. It was shown that possible explanation for the peculiar resistivity of (DOEO)4HgBr4ADTTCE salt observed at about 140 K relates to the disordering of anions and ethylene groups. Their partial ordering can lead to the observed metallic behavior but cannot prevent further localization at lower temperature.
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ISSN:0925-3467
DOI:10.1016/j.optmat.2012.03.012