Mössbauer Studies on the Tellurium-Selenium Mixed Chains

15 October 1988

journal article
research article
Published by Physical Society of Japan in Journal of the Physics Society Japan

Vol. 57 (10) , 3587-3593
https://doi.org/10.1143/jpsj.57.3587

Abstract

¹²⁵Te Mössbauer absorption measurements have been carried out for Te-Se mixed chains confined in the one-dimensional channels of mordenite crystals as well as for the mixed chains in trigonal crystalline and amorphous phases. ¹²⁹I Mössbauer emission spectra have been also taken for ¹²⁹Te labeled amorphous and trigonal Te-Se mixtures. The quadrupole splitting at the ¹²⁵Te atom is found to be appreciably larger for the isolated chains than for the trigonal mixtures, suggesting that the anisotropy of Te bonding is increased by reducirng the interchain coupling between the adjacent chains. Both ¹²⁵Te and ¹²⁹I Mössbauer results indicate that the molecular character is much stronger in the amorphous phase than in the trigonal phase.

Keywords

This publication has 12 references indexed in Scilit:

EXAFS Study on Selenium-Tellurium Mixed Chains
Journal of the Physics Society Japan, 1988
The Isolated Se Chains in the Channels of Mordenite Crystal
Journal of the Physics Society Japan, 1986
Infra-red effective charges for amorphous, monoclinic and trigonal Se
Philosophical Magazine Part B, 1985
Electronic structure of amorphous semiconductors
Advances in Physics, 1983
A 125Te and 129I Mössbauer study of tellurium–selenium and tellurium–sulfur phases
The Journal of Chemical Physics, 1977
Valence-Alternation Model for Localized Gap States in Lone-Pair Semiconductors
Physical Review Letters, 1976
Quadrupole interaction of ${}^{125}{Te}$ and ${}^{129}I$ in polycrystalline Te and in Te single crystals
Physical Review B, 1974
Method for the analysis of pure quadrupole spectra in nuclear gamma-ray resonance
Nuclear Instruments and Methods, 1969
Two-dimensional refinement of the crystal structure of tellurium
Acta Crystallographica, 1967
The crystal structure of trigonal selenium
Inorganic Chemistry, 1967