Low-temperature structural phase transitions in crystalline bromo and iodo 9-hydroxyphenalenone derivatives: Quantum chemistry employment

The model approaches and quantum chemical calculations are employed to explain the peculiarities of the ferroelectric behavior of new “zero‐dimensional” H‐bonded materials, i.e., 5‐bromo and 5‐iodo derivatives of 9‐hydroxyphenalenone (9HPO) and its deuteroxy analogue (9DPO). The tunneling parameters...

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Bibliographic Details
Published in:International journal of quantum chemistry 2006, Vol.106 (10), p.2297-2304
Main Authors: Dolin, S. P., Khrulev, A. A., Polyakov, E. V., Mikhailova, T. Yu, Levin, A. A.
Format: Article
Language:English
Subjects:
H-bonded materials
hydroxyphenalenone derivatives
quantum paraelectrics
structural phase transitions
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Summary:The model approaches and quantum chemical calculations are employed to explain the peculiarities of the ferroelectric behavior of new “zero‐dimensional” H‐bonded materials, i.e., 5‐bromo and 5‐iodo derivatives of 9‐hydroxyphenalenone (9HPO) and its deuteroxy analogue (9DPO). The tunneling parameters Ω (H/D) and the Ising model coupling parameters Jij are evaluated and discussed. Analysis of these parameters for the hydroxy and deuteroxy species demonstrates the quantum paraelectric behavior of both Br and I 9HPO derivatives due to the large values of the Ω(H)/J0 relation, where J0 is the molecular field parameter describing the coupling of any given H‐bond proton with all rest ones. In contrast, small values Ω(D)/J0 for their 9DPO analogues favor the low‐temperature structural phase transition into an ordered phase, which has a rather antiferroelectric than ferroelectric character. The estimates obtained and the resulting conclusions are in line with the overall observed trends in behavior of the substances under examination that emerge from the available experimental data. © 2006 Wiley Periodicals, Inc. Int J Quantum Chem, 2006
ISSN:0020-7608
1097-461X
DOI:10.1002/qua.21082