Functional Organic Materials Based on Polymerized Liquid-Crystal Monomers: Supramolecular Hydrogen-Bonded Systems

Dirk J. Broer; Cees M. W. Bastiaansen; Michael G. Debije

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Functional Organic Materials Based on Polymerized Liquid-Crystal Monomers: Supramolecular Hydrogen-Bonded Systems

机译：基于聚合液晶单体的功能有机材料：超分子氢键体系

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Functional organic materials are of great interest for a variety of applications. To obtain precise functional properties, well-defined hierarchically ordered supramolecular materials are crucial. The self-assembly of liquid crystals has proven to be an extremely useful tool in the development of well-defined nanostructured materials. We have chosen the illustrative example of photopolymerizable hydrogen-bonding mesogens to show that a wide variety of functional materials can be made from a relatively simple set of building blocks. Upon mixing these compounds with other reactive mesogens, nematic, chiral nematic, and smectic or columnar liquid-crystalline phases can be formed that can be applied as actuators, sensors and responsive reflectors, and nanoporous membranes, respectively.

机译：功能性有机材料对于各种应用非常感兴趣。为了获得精确的功能特性，定义明确的层次有序的超分子材料至关重要。液晶的自组装已被证明是开发定义明确的纳米结构材料的极其有用的工具。我们选择了可光聚合的氢键型液晶元的说明性示例，以表明可以用一组相对简单的构件来制造各种各样的功能材料。将这些化合物与其他反应性液晶元混合后，可形成向列相，手性向列相，近晶或柱状液晶相，分别用作致动器，传感器和响应型反射器以及纳米多孔膜。

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《Angewandte Chemie》 |2012年第29期|共8页
作者
Dirk J. Broer; Cees M. W. Bastiaansen; Michael G. Debije;
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正文语种 eng
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actuators; functional organic materials; hydrogen bonding; liquid crystals; nanoporous membranes;

机译：致动器;功能有机材料;氢键;液晶;纳米孔膜;

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1. Functional Organic Materials Based on Polymerized Liquid-Crystal Monomers: Supramolecular Hydrogen-Bonded Systems [J] . Dirk J. Broer, Cees M. W. Bastiaansen, Michael G. Debije Angewandte Chemie . 2012,第29期

机译：基于聚合液晶单体的功能有机材料：超分子氢键体系
2. Inorganic-organic hybrid protonic polymeric materials for fuel cells based on polycondensed and organically cross-linked sulfonyl- and styrene-functionalized alkoxysilanes [J] . Stephane Jacob, Christiane Poinsignon, Michael Popall Electrochimica Acta . 2005,第19期

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3. Hydrogen-bonded supramolecular polymers from derivatives of α-amino-ε-caprolactam: A bio-based material [J] . Tarkin-Tas E., Lange C.A., Mathias L.J. Journal of Polymer Science, Part A. Polymer Chemistry . 2011,第11期

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4. Multi-functional supramolecular materials by mixing hydrophobic cyclodextrin based host polymer and guest polymer;; recycle, healing, and toughening [C] . Junsu Park, Yoshinori Takashima, Akira Harada 日本化学会春季年会講演予稿集 . 2018

机译：通过混合基于疏水性环糊精的主体和客体聚合物来多功能超分子材料;回收，愈合和增韧
5. Growth and assembly of functionalized nanomaterials: Using organic-inorganic polymer hybrid systems. [D] . Goel, Divya. 2009

机译：功能化纳米材料的生长和组装：使用有机-无机聚合物混合系统。
6. Hybrid Materials Based on the Embedding of Organically Modified Transition Metal Oxoclusters or Polyoxometalates into Polymers for Functional Applications: A Review [O] . Mauro Carraro, Silvia Gross 2014

机译：基于将有机改性的过渡金属氧簇或多金属氧酸盐嵌入聚合物中以用于功能性应用的杂化材料：综述
7. Optical-limiting-based materials of mono-functional, multi-functional and supramolecular C60-containing polymers [O] . Elim, Hendry Izaac, Ouyang, Jianying, Goh, Suat Hong, 2006

机译：基于光学限制的单功能，多功能材料和超分子C60聚合物

Functional Organic Materials Based on Polymerized Liquid-Crystal Monomers: Supramolecular Hydrogen-Bonded Systems

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