Chirality and Macroscopic Polar Order in a Ferroelectric Smectic Liquid-Crystalline Phase Formed by Achiral Polyphilic Bent-Core Molecules This work was supported by the Deutsche Forschungsgemeinschaft and the Fonds der Chemischen Industrie.

Dantlgraber, Gert; Еремин, А. В.; Diele, Siegmar; Hauser, A.; Kresse, H.; Pelzl, G.; Tschierske, Carsten

doi:10.1002/1521-3773(20020703)41:13<2408::aid-anie2408>3.0.co;2-m

Cited by 195 publications

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“…The origin of the chiral domains is not yet clear. It seems that this is not due to formation of a helical superstructure, as initially proposed [20]. Presently, there are at least two models under discussion.…”

Section: Introductionmentioning

confidence: 80%

“…In contrast to most low molar mass bent-core molecules, with an antiferroelectric ground state [16,17], banana compounds with siloxane [15,[18][19][20] or carbosilane [21] groups attached, tend to show a ferroelectric organization due to a microsegregation of the three incompatible units [8]. The typical optically isotropic textures with domains of opposite handedness is often observed for bent-core molecules with siloxane segments.…”

Section: Introductionmentioning

confidence: 99%

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Banana‐shaped side chain liquid crystalline siloxanes

et al. 2006

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Eight banana-shaped side chain liquid crystalline oligomers and polymers have been synthesized by hydrosilylation of vinyl-terminated bent-core mesogens with trimethylsilylterminated siloxanes. The synthesized oligomers and polymers, and their olefinic precursors, were investigated by polarizing optical microscopy (POM), differential scanning calorimetry, X-ray diffraction (XRD), electro-optical experiments and Maldi-Tof. The short-tailed olefins form a Col r mesophase, whereas those with longer chains exhibit the SmCP A mesophase. All the oligomers and polymers studied show liquid crystalline properties and do not crystallize upon cooling. Most oligomers with around four repeating siloxane units, show a lamellar (layer) structure and antiferroelectric switching properties, the SmCP A phase. XRD shows that the layer spacings are hardly influenced by the length of the terminal tails. The oligomer prepared from the smallest olefinic precursor, having the shortest alkyl tail, shows an XRD pattern reminiscent of a columnar phase, although POM displays domains of opposite chirality, and no switching behaviour could be detected. The polymers with around 35 repeating siloxane units are liquid crystalline, but due to their high viscosity a thorough characterization of the liquid crystalline phases was impossible.

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Section: Introductionmentioning

confidence: 80%

Section: Introductionmentioning

confidence: 99%

Banana‐shaped side chain liquid crystalline siloxanes

et al. 2006

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“…Walba et al attempted to suppress the antiferroelectric interlayer order by introducing branched terminal chains into bent-core molecules [5]. Several bent shaped materials with FE switching were reported, having chiral alkyl chains [6,7], oligosiloxane [8] or oligocarbosilane [9] terminal bulky groups. However, until recently ferroelectric properties were encountered only in tilted smectic phases, while the ferroelectric orthogonal smectic phase has been searched for as a promising candidate for new displays with the advantages of high response speed, high contrast, continuous gray level, and wide viewing angle [10].…”

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confidence: 99%

Ferroelectric behavior of orthogonal smectic phase made of bent-core molecules

et al. 2011

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Ferroelectric behavior in the recently reported orthogonal ferroelectric SmA d PF phase in an unsymmetric bent-core molecule with a carbosilane terminal group was studied. The ferroelectricity of the SmA d PF phase was unambiguously confirmed by optical second-harmonic generation (SHG) activity in the absence of an electric field, ferroelectric response, and high dielectric strength. The long-range polar order is a consequence of weakened interlayer coupling due to the formation of carbosilane sublayers, which allows for the parallel order of dipole moments of bent-core molecules in the neighboring layers. It develops in the system gradually through the second-order phase transition from the orthogonal SmA d phase. In the SmA d PF phase the strong surface anchoring results in the splay of polarization across the sample thickness. The polar surface anchoring also brings about strongly thickness dependent polar fluctuations, as proved by the dielectric measurements (Goldstone-like mode). The relaxation frequency and dielectric strength vary more than one order of magnitude with cell thickness; in particular the dielectric strength attains more than 2000 in a 25-µm-thick cell and continues to increase for thicker cells. Simple theory developed qualitatively explains the experimental results, supporting the polarization splay model proposed.

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“…When using the term 'asymmetry' this should not be confused with 'chirality'. Non-symmetry for banana-shaped compounds can and has been achieved in a number of ways: (1) by a non-symmetrically substituted central group [9,[13][14][15][16][17]; (2) by two different terminal end groups or chains [18][19][20][21][22][23][24][25][26][27][28]; (3) by different linking groups in each wing of the molecule [19,23,28]; (4) by different (polar) substituents in each wing of the molecule [20][21][22]26]. In most of these cases, however, the non-symmetric nature of the investigated compounds arises from a combination of two of these possibilities.…”

Section: Introductionmentioning

confidence: 99%