Prenematic Self-Assembling of Mesogenic Molecules in Isotropic Liquid and Orientational Order in Nematic Phase

Wolarz, Eryk; Bauman, Danuta; Jadżyn, Jan; Dąbrowski, R.

doi:10.12693/aphyspola.120.447

Cited by 10 publications

(18 citation statements)

References 27 publications

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“…. and to more complex as 'cybotactic groups' appearing in the LC material as the substitute of pretransitional (prenematic fluctuations) [3,4,[56][57][58][59][60]. There are also claims that the observed weakly first-order nature of the N-I transition must be traced at the level of molecular interactions because just before the phase transition to the nematic phase the relaxation rate (linked to the relaxation time) strongly decreases from several 10 kHz down to a few kHz.…”

Section: Discussionmentioning

confidence: 99%

‘Quasi-Tricritical’ and Glassy Dielectric Properties of a Nematic Liquid Crystalline Material

Drozd-Rzoska

2020

Crystals

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Results of dielectric studies in the nematic and isotropic liquid phases of pentylcyanobiphenyl (5CB), a model rod-like liquid crystalline material, are shown. They are based on the discussion of the evolution of dielectric constant ( ε ), its changes under the strong electric field (nonlinear dielectric effect, NDE), and finally, the primary relaxation time. It is shown that changes in ε T and NDE are entirely dominated by the impact of pretransitional fluctuations (pre-nematic and pre-isotropic, respectively) which are associated with the weakly discontinuous character of the isotropic–nematic phase transition. This influence also extends for the low-frequency, ionic species dominated, region. Notable, that the derivative-based and distortions sensitive analysis revealed the tricritical nature of the I-N transition. Although the glass transition in 5CB occurs in the deeply supercooled state at T g ≈ − 68 ° C , the dynamics (changes of the primary relaxation time) follow a previtreous pattern both in the isotropic and in the nematic phase. Finally, the discussion of the ’molecular’ vs. ‘quasi-critical’ characterizations of the isotropic and nematic phases is presented. It shows the evident prevalence of the ‘quasi-critical-picture’, which offers the consistent temperature parameterization in the total tested temperature range.

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Section: Discussionmentioning

confidence: 99%

‘Quasi-Tricritical’ and Glassy Dielectric Properties of a Nematic Liquid Crystalline Material

Drozd-Rzoska

2020

Crystals

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“…The observed static permittivity anomalies can be divided to the two types with and without evident maximum. The anomalous behavior of the static permittivity, near the I-N phase transition, can be explained as a result of the decrease of the permanent dipole moment caused by an antiparallel association of the molecules and the formation of the prenematic domains in the isotropic phase near the I-N phase transition [10]. The magnitude of the anomaly of the static permittivity can be characterized by the temperature shift δT between the temperature T max in the maximum of the permittivity (if possible to define this maximum) and clearing temperature T c .…”

Section: Resultsmentioning

confidence: 99%

“…This anomaly of the static dielectric permittivity shows the following characteristic features: (i) strong bending down in the isotropic phase of nCB near the I-N phase transition, (ii) temperature dependence of the static dielectric permittivity with and without pronounced maximum in the isotropic phase near the I-N phase transition. The observed anomalies were related to the decrease of the effective dipole moment, caused by the antiparallel association of the molecules and the formation of the prenematic domains [10,11]. Moreover, the position (parallel or perpendicular to the long axis of the molecule) and values of the dipole moments play crucial role in the observed pretransitional anomalies [7,9,10].…”

Section: Prenematic Order In the Isotropic Phasementioning

confidence: 94%

“…The observed anomalies were related to the decrease of the effective dipole moment, caused by the antiparallel association of the molecules and the formation of the prenematic domains [10,11]. Moreover, the position (parallel or perpendicular to the long axis of the molecule) and values of the dipole moments play crucial role in the observed pretransitional anomalies [7,9,10].…”

Section: Prenematic Order In the Isotropic Phasementioning

confidence: 94%

“…Also, in the last years, the growing interest has been dedicated to investigate the origins of the pretransitional anomaly of the static dielectric permittivity in the isotropic phase of nematic liquid crystals near the I-N phase transition [7][8][9][10]. This anomaly of the static dielectric permittivity shows the following characteristic features: (i) strong bending down in the isotropic phase of nCB near the I-N phase transition, (ii) temperature dependence of the static dielectric permittivity with and without pronounced maximum in the isotropic phase near the I-N phase transition.…”

Section: Prenematic Order In the Isotropic Phasementioning

confidence: 99%

See 2 more Smart Citations

Change of the Prenematic Order in the Isotropic Phase Close to the Isotropic–Nematic Phase Transition with Increasing Aerosil Nanoparticles Density

Różański

2015

Molecular Crystals and Liquid Crystals

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The influence of the hydrophilic and hydrophobic aerosil nanoparticles density on the formation of the prenematic order close to the isotropic -nematic (I-N) phase transition is presented. The lowering of the activation energy, with the increase of aerosil nanoparticles density, suggests a change of the prenematic order in the isotropic phase. The temperature dependence of the static dielectric permittivity for 4-n-pentyl-4 -cyanobiphenyl (5CB) exhibits an anomaly near the I-N phase transition. With the increase of aerosil density, a substantial modification in the anomaly of the static permittivity was observed in the isotropic phase. Indicated changes are different for hydrophilic and hydrophobic aerosil as a result of different surface interaction between nematic molecules and aerosil nanoparticles.

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Strong modulation of electric permittivity at an isotropic-nematic phase transition in a liquid crystal mixture for optical devices based on the Kerr effect

Mrukiewicz

Perkowski

Mazur

et al. 2016

Journal of Molecular Liquids

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Prenematic Self-Assembling of Mesogenic Molecules in Isotropic Liquid and Orientational Order in Nematic Phase

Cited by 10 publications

References 27 publications

‘Quasi-Tricritical’ and Glassy Dielectric Properties of a Nematic Liquid Crystalline Material

‘Quasi-Tricritical’ and Glassy Dielectric Properties of a Nematic Liquid Crystalline Material

Change of the Prenematic Order in the Isotropic Phase Close to the Isotropic–Nematic Phase Transition with Increasing Aerosil Nanoparticles Density

Strong modulation of electric permittivity at an isotropic-nematic phase transition in a liquid crystal mixture for optical devices based on the Kerr effect

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