Topic
Homeotropic alignment
About: Homeotropic alignment is a research topic. Over the lifetime, 3356 publications have been published within this topic receiving 56569 citations.
Papers published on a yearly basis
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Papers
TL;DR: This critical review covers various aspects of recent research on discotic liquid crystals, in particular, molecular design concepts, supramolecular structure, processing into ordered thin films and fabrication of electronic devices.
Abstract: Discotic (disc-like) molecules typically comprising a rigid aromatic core and flexible peripheral chains have been attracting growing interest because of their fundamental importance as model systems for the study of charge and energy transport and due to the possibilities of their application in organic electronic devices. This critical review covers various aspects of recent research on discotic liquid crystals, in particular, molecular design concepts, supramolecular structure, processing into ordered thin films and fabrication of electronic devices. The chemical structure of the conjugated core of discotic molecules governs, to a large extent, their intramolecular electronic properties. Variation of the peripheral flexible chains and of the aromatic core is decisive for the tuning of self-assembly in solution and in bulk. Supramolecular organization of discotic molecules can be effectively controlled by the choice of the processing methods. In particular, approaches to obtain suitable macroscopic orientations of columnar superstructures on surfaces, that is, planar uniaxial or homeotropic alignment, are discussed together with appropriate processing techniques. Finally, an overview of charge transport in discotic materials and their application in optoelectronic devices is given (234 references).
1,381 citations
TL;DR: In this article, a new mechanism for liquid-crystal alignment that uses polarized laser light was proposed. But it was not shown to be effective for large-area displays, optical memories, binary optics, adaptive optics and molecular micro-assembly.
Abstract: THE control of molecular alignment in liquid-crystal phases at macroscopic scales has been investigated extensively because of its importance in optical or optoelectronic applications, such as liquid-crystal displays1. It is well established that liquid crystals can be aligned by an applied electric field, a magnetic field, a shear-flow field, mechanical grooving of the substrate surface or stretching of liquid-crystal polymer thin films2,3. Here we report a new mechanism for liquid-crystal alignment that uses polarized laser light. We find that nematic liquid crystals in an illuminated region become oriented perpendicular to the direction of the electric-field polarization of the laser and remain aligned in the absence of the laser radiation. The liquid crystals can be reoriented again by subsequent illumination. This technique might have applications for large-area displays, optical memories, binary optics, adaptive optics and molecular micro-assembly.
1,198 citations
Book•
1 Jan 2001
TL;DR: In this paper, the authors present a light modulation mechanism for reflective displays, including homogeneous cells, pi cells, homeotropic cells, hybrid aligned nematic cells, twisted and super-nematic cells.
Abstract: Light modulation mechanisms liquid crystal materials homogeneous cells pi cells homeotropic cells hybrid aligned nematic cells twisted nematic cells super twisted nematic cells guest-house cells cholesteric reflective displays liquid crystal and polymer composites system aspects of reflective displays.
574 citations
TL;DR: In this article, the stiffness of cylindrical supramolecular dendrimers was evaluated by examining their planar texture and its defects, showing that they are self-assembled, self-organized, and aligned spontaneously and simultaneously in hexagonal columnar or cubic thermotropic liquid-crystal phases with high uniformity.
Abstract: Electron microscopy methods have been used to visualize individual spherical and cylindrical supramolecular dendrimers, providing definitive confirmation of the structures suggested by previous x-ray diffraction analysis that assumed a microsegregated model. These dendrimers are self-assembled, self-organized, and aligned spontaneously and simultaneously in hexagonal columnar or cubic thermotropic liquid-crystal phases with high uniformity. Homeotropic and planar ordering of the hexagonal columnar liquid crystal was precisely controlled by a variety of surfaces. The stiffness of these cylinders was evaluated by examining their planar texture and its defects.
517 citations
TL;DR: Multiple diffraction rings appear as a cw laser beam passes through a homeotropic nematic film and are shown to be the result of spatial self-phase modulation due to the laser-induced Freedericksz transition.
Abstract: Multiple diffraction rings appear as a cw laser beam passes through a homeotropic nematic film. The phenomenon is shown to be the result of spatial self-phase modulation that is due to the laser-induced Freedericksz transition.
451 citations
Related Topics (5)
Performance Metrics
| Year | Papers |
|---|---|
| 2025 | 10 |
| 2024 | 14 |
| 2023 | 55 |
| 2022 | 130 |
| 2021 | 62 |
| 2020 | 38 |