Major A. Selemani, Khamhbawihum Cenhrang, Samuel Azibere, Mariama Singhateh and R. Scott Martin
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引用次数: 0
Abstract
A review with 93 references describing various 3D printing approaches that have been used to create microfluidic devices containing electrodes for electrochemical detection. The use of 3D printing to fabricate microfluidic devices is a rapidly growing area. One significant research area is how to detect analytes in the devices for quantitation purposes. This review article is focused on methods used to integrate electrodes into the devices for electrochemical detection. The review is organized in terms of the methodology for integrating the electrode within the device. This includes (1) external coupling of traditional electrode materials with 3D printed devices; (2) printing conductive electrode materials as part of device printing; and (3) integrating traditional electrodes into the device as part of the print process. Example applications are given and some future directions are also outlined.
该综述包含 93 篇参考文献,介绍了用于制造含有电化学检测电极的微流控装置的各种三维打印方法。使用三维打印技术制造微流控装置是一个快速发展的领域。一个重要的研究领域是如何在设备中检测分析物以达到定量的目的。本综述文章主要介绍将电极集成到设备中进行电化学检测的方法。综述按照将电极集成到设备中的方法进行组织。这包括:(1)传统电极材料与 3D 打印设备的外部耦合;(2)打印导电电极材料作为设备打印的一部分;以及(3)将传统电极集成到设备中作为打印过程的一部分。本文给出了应用实例,并概述了一些未来发展方向。
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