Zeshan Sun, Peng Kong, He Gui, Zhiyuan Chen, Yu Song, Yao Wang, Yanxin Wang, Matt J. Kipper, Jianguo Tang, Linjun Huang
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引用次数: 0
Abstract
As a kind of artificial bionic membrane, smart response membrane can respond to the stimulus signals in the environment by the principle of bionic technology. Graphene oxide (GO) has a unique functional group and material structure, which makes it exhibit distinctive performance characteristics in smart response membranes, and smart response membranes prepared by using GO are characterized by highly sensitive response and intelligent tunability. This paper introduces the preparation method, response mechanism, performance characteristics, and application areas of GO-based smart response membranes. The GO-based smart response membranes are classified into physical response and chemical response according to the type of response, where physical response includes light response, temperature response, humidity response, and pressure response, and chemical response includes pH response, molecular/ionic response, and CO gas response. The article highlights the outstanding performance advantages and application examples of various smart response membranes, and discusses two new functional GO-based smart response membranes with self-cleaning and self-repair. Finally, the article comprehensively evaluates the performance of various smart response membranes, and looks forward to the future development of GO smart response membranes, expecting to explore a brighter development direction in this research field and contribute to human life, industrial development, and high-tech progress.
智能响应膜作为一种人工仿生膜,能够利用仿生技术原理对环境中的刺激信号做出响应。氧化石墨烯(GO)具有独特的官能团和材料结构,使其在智能响应膜中表现出与众不同的性能特征,利用GO制备的智能响应膜具有高灵敏响应和智能可调性的特点。本文介绍了基于 GO 的智能响应膜的制备方法、响应机理、性能特点和应用领域。GO基智能响应膜按响应类型分为物理响应和化学响应,其中物理响应包括光响应、温度响应、湿度响应和压力响应,化学响应包括pH响应、分子/离子响应和CO气体响应。文章重点介绍了各种智能响应膜的突出性能优势和应用实例,并讨论了两种基于 GO 的具有自清洁和自修复功能的新型智能响应膜。最后,文章全面评价了各种智能响应膜的性能,并对 GO 智能响应膜的未来发展进行了展望,期望能在该研究领域探索出更光明的发展方向,为人类生活、工业发展和高科技进步做出贡献。
期刊介绍:
Materials Today Chemistry is a multi-disciplinary journal dedicated to all facets of materials chemistry.
This field represents one of the fastest-growing areas of science, involving the application of chemistry-based techniques to the study of materials. It encompasses materials synthesis and behavior, as well as the intricate relationships between material structure and properties at the atomic and molecular scale. Materials Today Chemistry serves as a high-impact platform for discussing research that propels the field forward through groundbreaking discoveries and innovative techniques.