Chromonic liquid crystals are formed by molecules that spontaneously assemble into anisotropic structures in water. The ordering unit is therefore a molecular assembly instead of a molecule as in thermotropic liquid crystals. Although it has been known for a long time that certain dyes, drugs, and nucleic acids form chromonic liquid crystals, only recently has enough knowledge been gained on how to control their alignment so that studies of their fundamental liquid crystal properties can be performed. In this article, a simple method for producing planar alignment of the nematic phase in chromonic liquid crystals is described, and this in turn is used to create twisted nematic structures of both achiral and chiral chromonic liquid crystals. The optics of 90-degree twist cells allows the anchoring strength to be measured in achiral systems, which for this alignment technique is quite weak, about 3 x 10(-7) J/m2 for both disodium cromoglycate and Sunset Yellow FCF. The addition of a chiral amino acid to the system causes the chiral nematic phase to form, and similar optical measurements in 90-degree twist cells produce a measurement of the intrinsic pitch of the chiral nematic phase. From these measurements, the helical twisting power for L-alanine is found to be (1.1 +/- 0.4) x 10(-2) mu m(-1) wt%(-1) for 15 wt% disodium cromoglycate.
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机译:发色液晶是由分子自发地组装成水中的各向异性结构而形成的。因此,有序单元是分子组装体,而不是热致液晶中的分子。尽管很长一段时间以来就知道某些染料,药物和核酸会形成发色液晶,但是直到最近才获得有关如何控制其取向的足够知识,从而可以对其基本的液晶性质进行研究。在本文中,描述了一种用于在发色液晶中产生向列相平面取向的简单方法,该方法又用于创建非手性和手性发色液晶的扭曲向列结构。 90度扭曲单元的光学元件允许在非手性系统中测量锚固强度,对于这种对齐技术而言,锚固强度非常弱,对于色甘酸二钠和日落黄FCF约为3 x 10(-7)J / m2。向该系统中添加手性氨基酸会导致形成手性向列相,并且在90度扭曲池中进行类似的光学测量,就可以测量出手性向列相的固有间距。通过这些测量,发现对于15重量%的色甘酸二钠,L-丙氨酸的螺旋扭转能力为(1.1 +/- 0.4)×10(-2)μm(-1)重量%(-1)。
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