J. Phys. Chem. C
 2023
DOI: 10.1021/acs.jpcc.3c01523
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Dielectric Relaxation in Nanocrystals: A Scale Effect

K. I. Hnatiuk
1
,
Yuri F. Zabashta
2
,
M. M. Lazarenko
3
et al.

Abstract: The study explores a scale effect inherent to the dielectric relaxation in nanocrystals: the dependence of dielectric relaxation parameters on the size of a nanocrystal. We offer a model of the scale effect for the dielectric relaxation caused by thermally activated motion. In this model, a nanocrystal is considered as a physical infinitesimal volume: a region where a local equilibrium exists. We conclude that the thermally activated motion causes the energy fluctuations in a nanocrystal as a whole. A relation… Show more

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Thermally activated processes: the underlying mechanism of activated state formation

Lazarenko,
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Alekseev
et al. 2024
RSC Adv.
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Thermally activated processes: the underlying mechanism of activated state formation

Lazarenko,
Zabashta,
Alekseev
et al. 2024
RSC Adv.
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The impact of the phase composition of bacterial cellulose on the low-temperature mobility of its molecules

Shevchenko,
Nedilko,
Alekseev
et al. 2024
Molecular Crystals and Liquid Crystals
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