微流控水质监测传感器的综合评述。

A Comprehensive Review of Microfluidic Water Quality Monitoring Sensors.

机构信息

Department of Mechanical and Electrical Engineering, SF&AT, Massey University, Auckland 0632, New Zealand.

出版信息

Sensors (Basel). 2019 Nov 3;19(21):4781. doi: 10.3390/s19214781.

DOI:10.3390/s19214781

PMID:31684136

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6864743/

Abstract

Water crisis is a global issue due to water contamination and extremely restricted sources of fresh water. Water contamination induces severe diseases which put human lives at risk. Hence, water quality monitoring has become a prime activity worldwide. The available monitoring procedures are inadequate as most of them require expensive instrumentation, longer processing time, tedious processes, and skilled lab technicians. Therefore, a portable, sensitive, and selective sensor with in situ and continuous water quality monitoring is the current necessity. In this context, microfluidics is the promising technology to fulfill this need due to its advantages such as faster reaction times, better process control, reduced waste generation, system compactness and parallelization, reduced cost, and disposability. This paper presents a review on the latest enhancements of microfluidic-based electrochemical and optical sensors for water quality monitoring and discusses the relative merits and shortcomings of the methods.

摘要

水危机是一个全球性问题，其原因是水污染和极其有限的淡水资源。水污染会引发严重疾病，从而威胁人类的生命。因此，水质监测已成为全球的主要活动。现有的监测程序还不够完善，因为大多数程序都需要昂贵的仪器、更长的处理时间、繁琐的过程和熟练的实验室技术人员。因此，需要一种具有现场和连续水质监测功能的便携式、灵敏且选择性强的传感器。在这方面，由于微流控技术具有更快的反应时间、更好的过程控制、减少废物产生、系统紧凑和并行化、降低成本以及可处置性等优势，因此是满足这一需求的有前途的技术。本文综述了基于微流控的电化学和光学传感器在水质监测方面的最新进展，并讨论了这些方法的相对优点和缺点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eefb/6864743/fe477becb9f1/sensors-19-04781-g001.jpg

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微流控水质监测传感器的综合评述。

A Comprehensive Review of Microfluidic Water Quality Monitoring Sensors.

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