Monomer blended electrochemical polymerization in chiral liquid crystals to produce electro-optically active copolymer

M. Otaki, Ryo Miyashita, H. Goto
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引用次数: 0

Abstract

Abstract Electro-optically active low-bandgap conjugated copolymers were obtained by electrochemical polymerization (EP) in cholesteric liquid crystal (CLC). We prepared CLC electrolyte mixture blends of monomers, and electrochemically polymerized for obtaining conjugated copolymer with optical activity, in which the structure of the CLC is transferred, from achiral monomers on a CLC template. In addition, this copolymer showed a narrow bandgap and a significant red shift of the absorption band compared to the homopolymer. The optical rotatory dispersion (ORD) indicates that the polymer is chiroptically active and that the optical rotation can be tuned via redox. The guest monomers used for the EP in liquid crystal (LC) require solubility in the host LC and a rod-like structure, limiting their structural design. This technique has the advantage that complex synthesis of monomers is no required, and simple composition of monomers can be used to prepare copolymer films in a convenient manner by blending various monomers. This method expands the design range of optically active electrochromic devices based on conjugated polymers with pleochroic properties. Graphical Abstract
单体在手性液晶中共混电化学聚合制备电光活性共聚物
摘要在胆甾液晶(CLC)中采用电化学聚合(EP)法制备了具有电光活性的低带隙共轭共聚物。我们制备了CLC电解质中单体的混合物,并通过电化学聚合得到了具有光学活性的共轭共聚物,其中CLC的结构是在CLC模板上转移的。此外,与均聚物相比,该共聚物具有窄的带隙和明显的吸收带红移。旋光色散(ORD)表明该聚合物具有旋光活性,旋光性可通过氧化还原调节。液晶(LC)中用于EP的客体单体要求在主液晶中的溶解度和棒状结构,这限制了它们的结构设计。该技术的优点是不需要复杂的单体合成,单体的简单组成可以通过各种单体的共混,方便地制备共聚物薄膜。该方法扩大了基于多致变色共轭聚合物的光主动电致变色器件的设计范围。图形抽象
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