Journal ArticleDOI
Nematic phases of bent-core mesogens
Reads0
Chats0
TLDR
In this article, a temperature dependent stepwise transition from cybotactic nematic phases to different types of non-polar and tilted smectic phases (SmC(I) and SmC(II)) is observed with a mesophase composed of elongated, but not yet fused cybactic clusters (CybC) as an intermediate state of this transition.Abstract:
Bent-core mesogens derived from 4-cyanoresorcinol with terminal alkyl chains have been synthesized and investigated by polarizing microscopy, XRD and electro-optical methods. Short chain compounds have exclusively nematic phases which can be cooled to ambient temperature. These nematic phases are similar to ordinary nematic phases with only nearest neighbour correlation (N) whereas long chain compounds form SmC-type cybotactic clusters and these cybotactic nematic phases (NcybC) can be regarded as strongly fragmented SmC phases. The chain length dependent as well as temperature dependent structural transition from N to NcybC is continuous and associated with a change of the position and intensity of the small angle scattering in the XRD patterns. Moreover, a temperature dependent stepwise transition from cybotactic nematic phases to different types of non-polar and tilted smectic phases (SmC(I) and SmC(II)) is observed with a mesophase composed of elongated, but not yet fused cybotactic clusters (CybC) as an intermediate state of this transition. This improves the understanding of the nature and special properties of the nematic phases formed by bent-core molecules as well as their transition to smectic phases and it paves the way to new materials with spontaneous or field-induced biaxial nematic phases at ambient temperatures.read more
Citations
More filters
Journal ArticleDOI
Development of structural complexity by liquid-crystal self-assembly.
TL;DR: New exciting soft-matter structures distinct from the usually observed nematic, smectic, and columnar phases are presented, including multicompartment and cellular structures, periodic and quasiperiodic arrays of spheres, and new emergent properties, such as ferroelctricity and spontaneous achiral symmetry-breaking.
Journal ArticleDOI
Biaxial nematic phases
TL;DR: An overview of the current state of research in the field of biaxial nematic liquid crystalline materials is given in this paper, where the major theoretical concepts are outlined, including the classification to different symmetries, the importance of cooperativity and cluster formation for the development of BN order and the conditions for the establishment of field induced and spontaneous BN in nematic phases.
Journal ArticleDOI
Liquid crystals of the twenty-first century – nematic phase of bent-core molecules
TL;DR: A comprehensive review of the main research directions and results can be found in this article, where the authors describe the properties of smectic nano clusters often observed in BCNs, and discuss rheological properties that reveal unusually large viscosities and small twist and bend elastic constants.
Journal ArticleDOI
Mirror Symmetry Breaking by Chirality Synchronisation in Liquids and Liquid Crystals of Achiral Molecules.
TL;DR: Progress in the understanding of a new dynamic mode of symmetry breaking, based on chirality synchronisation of transiently chiral molecules in isotropic liquids and in bicontinuous cubic, columnar, smectic and nematic liquid crystalline phases is discussed.
References
More filters
Journal ArticleDOI
Different nematic phases and a switchable SmCP phase formed by homologues of a new class of asymmetric bent-core mesogens
Martin W. Schröder,Siegmar Diele,Gerhard Pelzl,Ulrike Dunemann,Horst Kresse,Wolfgang Weissflog +5 more
TL;DR: In this article, the mesophase behavior of asymmetric bent-shaped compounds was investigated by polarizing microscopy, X-ray diffraction, dielectric and electro-optical measurements.
Journal ArticleDOI
Spontaneous symmetry-breaking in halogen-bonded, bent-core liquid crystals: observation of a chemically driven Iso-N-N* phase sequence.
TL;DR: A chiral nematic phase is observed in a halogen-bonded, bent-core mesogen, which is itself achiral; the phase sequence arises from the lability of the Halogen- bonded complex.
Journal ArticleDOI
Structure studies of the nematic phase formed by bent-core molecules.
Nataša Vaupotič,Nataša Vaupotič,Jadwiga Szydłowska,Mirosław Salamończyk,A. Kovarova,Jiří Svoboda,Mikhail A. Osipov,Damian Pociecha,Ewa Gorecka +8 more
TL;DR: It is shown experimentally and theoretically that such x-ray pattern is due to the local smectic- C fluctuations ("cybotactic" groups) in the uniaxial nematic phase.
Journal ArticleDOI
Electric-field-induced polar biaxial order in a nontilted smectic phase of an asymmetric bent-core liquid crystal.
Yoshio Shimbo,Ewa Gorecka,Damian Pociecha,Fumito Araoka,Masanao Goto,Yoichi Takanishi,Ken Ishikawa,Jozef Mieczkowski,Kinga Gomola,Hideo Takezoe +9 more
TL;DR: A polarization reorientation process has been studied by means of optical second-harmonic generation in an optically uniaxial smectic phase of an asymmetric bent-core liquid crystal and it is suggested that about 200s of molecules form a polar domain and cooperatively respond to the applied field.
Journal ArticleDOI
Thermotropic biaxial nematic order parameters and phase transitions deduced by Raman scattering
C. Southern,P. D. Brimicombe,S. D. Siemianowski,S. Jaradat,Nicholas W. Roberts,Verena Görtz,John W. Goodby,Helen F. Gleeson +7 more
TL;DR: In this paper, Raman scattering was used to investigate biaxiality in the nematic phase formed by the bent-core material, C5-Ph-ODBP-PhOC12.
Related Papers (5)
Bent-Core Liquid Crystals: Their Mysterious and Attractive World
Hideo Takezoe,Yoichi Takanishi +1 more