Iontronics:用于仿生功能和应用的基于水离子的工程

IF 6.1 Q2 CHEMISTRY, PHYSICAL Chemical physics reviews Pub Date : 2022-09-01 DOI:10.1063/5.0089822
S. H. Han, M.-A. Oh, T. Chung
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引用次数: 5

摘要

离子电子学是一种在水环境中使用离子或分子作为信号载体的人工平台,其灵感来自生物系统及其工作原理。离子电子学的应用主要是为了模拟生物系统的特性或形成用于通信的无缝生物接口。这篇综述全面描述了近几十年来离子电子学的这些努力,以及与仿生非线性行为和离子化学输送装置有关的演示。基于所使用的电荷选择材料的类型及其基本原理,讨论了研究重点和应用。由于离子电子学仍处于发展和多样化的早期阶段,首先简要介绍了其历史方面和起源,然后对每种离子电子学材料及其相关应用进行了理论讨论。最后,总结了离子电子学在生物体自然系统中的未来发展。
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Iontronics: Aqueous ion-based engineering for bioinspired functionalities and applications
Iontronics is an artificial platform using ions or molecules as signal carriers in an aqueous environment and is inspired by biological systems and their operating principles. Applications of iontronics have been primarily developed to mimic the characteristics of biological systems or to form seamless biointerfaces for communication. This review provides a comprehensive description of such endeavors in iontronics over the recent decades, as well as demonstrations pertaining to biomimetic nonlinear behaviors and ionic chemical delivery devices. The research highlights and applications are discussed based on the types of charge-selective materials used and their underlying principles. As iontronics is still at the early stage of development and diversification, a brief overview of its historical aspects and origin is first provided, followed by theoretical discussions regarding each iontronic material and its related applications. Finally, the review is concluded with some perspectives regarding future developments of iontronics in relation to natural systems in living organisms.
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