Anomalous behavior of thermal conductivity at high temperatures for molecular crystals composed of flexible molecules

Anomalous behavior of thermal conductivity at high temperatures for molecular crystals composed of flexible molecules

The temperature dependence of thermal conductivity κ(Т) of selected molecular polycrystals consisting of flexible molecules was investigated within 20–260 K. The materials were para-chloronitrobenzene, pentachloronitrobenzene and freons F-112 and F-113. The κ(Т) of these crystals increased with temp...

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Bibliographic Details
Published in:The Journal of physics and chemistry of solids Vol. 127; pp. 151 - 157
Main Authors: Horbatеnko, Yuliia V., Romantsova, Olesia O., Korolyuk, Oksana A., Jeżowski, Andrzej, Szewczyk, Daria, Tamarit, Joseph Ll, Krivchikov, Alexander I.
Format: Journal Article Publication
Language:English
Published: Elsevier Ltd 01-04-2019
Subjects:
Calor
Conducció
Cristalls moleculars
Diffusive modes
Enginyeria dels materials
Hybridization
Iocons
Locons
Phonons
Polymorphism
Thermal conductivity
Àrees temàtiques de la UPC
Thermal conductivity
Hybridization
Diffusive modes
Phonons
Polymorphism
Locons
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Summary:The temperature dependence of thermal conductivity κ(Т) of selected molecular polycrystals consisting of flexible molecules was investigated within 20–260 K. The materials were para-chloronitrobenzene, pentachloronitrobenzene and freons F-112 and F-113. The κ(Т) of these crystals increased with temperature in the interval where processes of phonon–phonon scattering were dominant. The increase was observed both in the orientationally-ordered and -disordered phases and is typical of the thermally activated heat transfer by localized molecular excitations [M. A. Strzhemechny et al., Chem. Phys. Lett. 647 (2016) 55]. In a wide interval of temperatures, irrespective of the glass transition temperature, the κ(Т) could be described by a sum of three components: κ(Т) = А/Т + В + κТА(Т). The term A/T accounts for phonon–phonon scattering processes and B accounts for diffuse phonon scattering. The third contribution is described by the Arrhenius equation, κТА(Т) = κ0 ехр(−Е/kBТ), where E is the activation energy and κ0 is the pre-exponential factor characterizing intensity of the activation process. A comparative analysis of anomalous thermal conductivities of some other molecular crystals was carried out. It was found that κ0 linearly depended on E and a similar relationship was evident for a series of quasicrystals. [Display omitted] •The thermal conductivity κ(Т) of molecular polycrystals was investigated.•Para-chloronitrobenzene, pentachloronitrobenzene and freons were studied.•The κ(Т) increased abnormally with temperature in the high-temperature region.•The anomaly was connected to the thermal activation mechanism of heat transfer.
ISSN:0022-3697
1879-2553
DOI:10.1016/j.jpcs.2018.12.017