环境监测应用中基于纳米片的可穿戴生物危害气体传感器的现状概述

IF 11.1 2区 化学 Q1 CHEMISTRY, ANALYTICAL
Chen Liu , Qianqian Wang , Chunge Wang , Qingfeng Wang , Wenjie Zhao , Zhaotao He , Yuhan Zheng , Ying Jing , Xu Sun , Sheng Zhang
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引用次数: 0

摘要

纳米片是一种具有极高表面体积比的二维纳米材料,在各个领域引起了极大的关注,具有广阔的应用前景。由于其特殊的结构,纳米片具有突出的传感性能,包括催化剂、电学性能等,以及独特的物理性能,如显著的粘附性、可拉伸性和柔韧性。因此,纳米片材料可以在可穿戴生物危害气体传感器领域发挥重要作用,这是生物传感器领域正在兴起的研究课题之一。在这篇综述中,讨论了基于纳米片材料的可穿戴生物危害气体传感器的最新发展,并将其分为四类,包括用于监测NO2、NH3、其他气体和多种气体的基于纳米片的可穿戴生命危害气体传感器。最后,展望了基于纳米片的可穿戴生物危害气体传感器的研究趋势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
State of the art overview wearable biohazard gas sensors based on nanosheets for environment monitoring applications

Nanosheets, a classification of two-dimensional nanomaterials with extremely high surface-to-volume ratios, have attracted great attention in various fields with vast applications. Owing to their specific structures, nanosheets possess prominent sensing properties including catalyst, electrical properties, etc., together with unique physical properties like remarkable adhesion, stretchability, and flexibility. Therefore, nanosheet materials could play a significant role in the field of wearable biohazard gas sensors which is one of the rising research topics in the field of biosensors. In this review, the state-of-the-art development of wearable biohazard gas sensors based on nanosheet materials is discussed and classified into four categories including wearable biohazard gas sensors based on nanosheets towards the monitoring of NO2, NH3, other gases, and multiple gases. Finally, the research trend in wearable biohazard gas sensors based on nanosheets is prospected.

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来源期刊
Trends in Environmental Analytical Chemistry
Trends in Environmental Analytical Chemistry Chemistry-Analytical Chemistry
CiteScore
21.20
自引率
2.70%
发文量
34
审稿时长
44 days
期刊介绍: Trends in Environmental Analytical Chemistry is an authoritative journal that focuses on the dynamic field of environmental analytical chemistry. It aims to deliver concise yet insightful overviews of the latest advancements in this field. By acquiring high-quality chemical data and effectively interpreting it, we can deepen our understanding of the environment. TrEAC is committed to keeping up with the fast-paced nature of environmental analytical chemistry by providing timely coverage of innovative analytical methods used in studying environmentally relevant substances and addressing related issues.
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