Open AccessFirst-Principles Theory of Phase Transitions in IrTe2
Author(s) -
Gabriele Saleh,
Sergey Artyukhin
Publication year - 2020
Publication title -
the journal of physical chemistry letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.563
H-Index - 203
ISSN - 1948-7185
DOI - 10.1021/acs.jpclett.0c00012
Subject(s) - crystal structure , hexagonal lattice , hexagonal crystal system , materials science , lattice (music) , phase transition , chemical physics , condensed matter physics , infrared , doping , density functional theory , crystallography , chemistry , computational chemistry , physics , optics , antiferromagnetism , acoustics
We present a computational study of the electronic structure and lattice dynamics of IrTe 2 that sheds light on the debated mechanism of the temperature-induced phase transitions of this material. At ambient temperature, IrTe 2 adopts a hexagonal crystal structure typical of metal chalcogenides. Upon cooling, some Ir-Ir distances shorten, thus inducing lattice modulations. We demonstrate that this is due to the formation of multicenter bonds involving both Ir and Te atoms. We show how the formation of these bonds is energetically favorable but lowers the vibrational entropy; therefore, they are destabilized by temperature. The obtained model is exploited to rationalize the effect of Se doping and other experimental results from the literature.
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