Chemical and biological sensing using liquid crystals.

IF 4.8 3区 材料科学 Q2 CHEMISTRY, PHYSICAL Liquid Crystals Reviews Pub Date : 2013-01-01 DOI:10.1080/21680396.2013.769310
Rebecca J Carlton, Jacob T Hunter, Daniel S Miller, Reza Abbasi, Peter C Mushenheim, Lie Na Tan, Nicholas L Abbott
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Abstract

The liquid crystalline state of matter arises from orientation-dependent, non-covalent interaction between molecules within condensed phases. Because the balance of intermolecular forces that underlies formation of liquid crystals is delicate, this state of matter can, in general, be easily perturbed by external stimuli (such as an electric field in a display). In this review, we present an overview of recent efforts that have focused on exploiting the responsiveness of liquid crystals as the basis of chemical and biological sensors. In this application of liquid crystals, the challenge is to design liquid crystalline systems that undergo changes in organization when perturbed by targeted chemical and biological species of interest. The approaches described below revolve around the design of interfaces that selectively bind targeted species, thus leading to surface-driven changes in the organization of the liquid crystals. Because liquid crystals possess anisotropic optical and dielectric properties, a range of different methods can be used to read out the changes in organization of liquid crystals that are caused by targeted chemical and biological species. This review focuses on principles for liquid crystal-based sensors that provide an optical output.

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利用液晶进行化学和生物传感。
物质的液晶态产生于凝聚相中分子间的取向依赖性非共价相互作用。由于分子间作用力的平衡是液晶形成的基础,因此这种物质状态一般很容易受到外部刺激(如显示器中的电场)的干扰。在这篇综述中,我们将概述最近在利用液晶的响应性作为化学和生物传感器的基础方面所做的努力。在液晶的这一应用中,面临的挑战是如何设计液晶系统,使其在受到目标化学和生物物种扰动时发生组织变化。下文介绍的方法围绕界面的设计展开,这些界面可选择性地结合目标物种,从而导致液晶组织发生表面驱动的变化。由于液晶具有各向异性的光学和介电特性,因此可以使用一系列不同的方法来读出目标化学和生物物种引起的液晶组织变化。本综述重点介绍提供光学输出的液晶传感器的原理。
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来源期刊
Liquid Crystals Reviews
Liquid Crystals Reviews CHEMISTRY, PHYSICALCRYSTALLOGRAPHY&n-CRYSTALLOGRAPHY
CiteScore
7.60
自引率
5.90%
发文量
8
期刊介绍: Liquid Crystals Reviews publishes review articles on all aspects of liquid crystal fundamentals and applied science, including experimental and theoretical studies of physical and chemical properties, molecular design and synthesis and engineering of liquid crystal devices. The Journal fosters cross-disciplinary exchange of ideas, encouraging authors to present material at a level accessible to specialists from other fields of science and engineering. Liquid Crystals Reviews provides the scientific community, in both academia and industry, with a publication of standing, guaranteed by the Editors and by the International Editorial Board who are active scientists in the worldwide liquid crystal community.
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