Static and dynamic dielectric properties of strongly polar liquids in the vicinity of first order and weakly first order phase transitions

Abstract: The paper presents the results of measurements of the linear dielectric properties of the compounds from the homologous series of alkylcyanobiphenyls (C(n)H(2n+1)PhPhCN, nCB) in the vicinity of the first order transition (from the isotropic liquid to the crystalline phase) of nonmesogenic nCB's (n=2-4) and the weakly first order transition (from the isotropic liquid to the nematic phase) of 5CB. The experimental method for the separation of the critical part of the static permittivity derivative and the activa… Show more

“…Then, the value of the activation energy cannot be determined in a simple way as the slope of ln τ (T ) on T −1 dependence. For such situations, we have recently proposed [39] the procedure of the activation energy E A determination by calculating the (15), that derivative leads directly to the activation energy at a given temperature, so allowing one to analyze how E A evolves with T . As we discussed in previous papers [39,40], the activation energy should be, in general, temperature dependent and the tenet of its constancy has no physical basis.…”

“…For such situations, we have recently proposed [39] the procedure of the activation energy E A determination by calculating the (15), that derivative leads directly to the activation energy at a given temperature, so allowing one to analyze how E A evolves with T . As we discussed in previous papers [39,40], the activation energy should be, in general, temperature dependent and the tenet of its constancy has no physical basis. Of course, the proposed procedure of the determination of E A (T ) dependence requires very accurate values of the relaxation time obtained for an appropriate step of the temperature, particularly in the vicinity of the phase transition.…”

Anomalous Dielectric Relaxation in Binary Mixtures of Mesogenic Solvent/Non-Mesogenic Solute

“…Then, the value of the activation energy cannot be determined in a simple way as the slope of ln τ (T ) on T −1 dependence. For such situations, we have recently proposed [39] the procedure of the activation energy E A determination by calculating the (15), that derivative leads directly to the activation energy at a given temperature, so allowing one to analyze how E A evolves with T . As we discussed in previous papers [39,40], the activation energy should be, in general, temperature dependent and the tenet of its constancy has no physical basis.…”

“…For such situations, we have recently proposed [39] the procedure of the activation energy E A determination by calculating the (15), that derivative leads directly to the activation energy at a given temperature, so allowing one to analyze how E A evolves with T . As we discussed in previous papers [39,40], the activation energy should be, in general, temperature dependent and the tenet of its constancy has no physical basis. Of course, the proposed procedure of the determination of E A (T ) dependence requires very accurate values of the relaxation time obtained for an appropriate step of the temperature, particularly in the vicinity of the phase transition.…”

Anomalous Dielectric Relaxation in Binary Mixtures of Mesogenic Solvent/Non-Mesogenic Solute

“…The dielectric permittivity shows no pretransitional effects in vicinity of the first order transition from the isotropic liquids to the crystalline (I-Cr) phase [4]. As shown in Fig.…”

“…The effect is much more pronounced in the permittivity derivative [ Fig. 2(b)], which shows a critical-like behaviour as temperature approaches to the IN phase transition [4]. It is worthy to notice that several degrees before the transition to the nematic phase, the permittivity derivative of 5CB changes its sign to the positive one.…”

“…The prenematic effects which appear in the linear dielectric properties as a peculiar temperature behaviour of the static permittivity [2][3][4][5][6] and the activation energy for molecular rotation derived from the dielectric relaxation time [4,5] or as the anomalously slowing down rotational diffusion [7], manifest themselves especially in the case of strongly polar mesogenic liquids. This paper presents a review of recent experimental results on the static dielectric behaviour of the mesogenic compounds of different polarity in the vicinity of the I-N phase transition.…”

Static dielectric pretransitional effects in thermotropic liquid crystals

Structure and dynamics of mesogens using intermolecular potentials derived from ab initio calculations