Pre-Critical and Giant Post-Freezing and Pre-Melting Effects for Dielectric Properties in a Binary Mixture of Limited Miscibility

Author:

Kalabiński Jakub1ORCID,Drozd-Rzoska Aleksandra1ORCID,Starzonek Szymon2ORCID,Rzoska Sylwester J.1

Affiliation:

1. Institute of High Pressure Physics Polish Academy of Sciences, Sokołowska 29/37, 01-142 Warsaw, Poland

2. Laboratory of Physics, Faculty of Electrical Engineering, University of Ljubljana, Tržaška 25, 1000 Ljubljana, Slovenia

Abstract

This report presents the results of dielectric studies in a nitrobenzene–decane critical mixture in the homogeneous liquid, biphasic mesophase, and the solid crystal phase. It focuses on detecting critical effects in the broad surrounding of the critical consolute temperature and pre-melting and post-freezing effects in the solid crystal phase. The strong manifestation of the diameter critical anomaly in the biphasic domain and the Mossotti catastrophe type pre-melting and post-freezing effects in the solid phase are evidenced. Studies include the puzzling low-frequency (LF) domain related to translational processes. The real part of electric conductivity, in LF limit, is well portrayed by the super-Arrhenius-type equation in the homogenous liquid and solid phases. The obtained experimental evidence can be significant for the cognitive progress of the still puzzling melting/freezing canonic discontinuous transition.

Funder

National Science Center

Publisher

MDPI AG

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3. Atkins, P., and de Paula, J. (2010). Atkin’s Physical Chemistry, Oxford University Press.

4. Khabibullaev, P.K., and Saidov, A.A. (2003). Phase Separation in Soft Matter Physics, Springer.

5. Arkenbout, G.F. (1995). Melt Crystallization Technology, Technomic Pub. Co.

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