3D 打印石墨烯/聚乳酸电极有望在电化学生物传感器中实现高灵敏度。

3D-Printed Graphene/Polylactic Acid Electrodes Promise High Sensitivity in Electroanalysis.

机构信息

Department of Inorganic Chemistry , University of Chemistry and Technology Prague , Technicka 5 , 166 28 Prague 6 , Czech Republic.

出版信息

Anal Chem. 2018 May 1;90(9):5753-5757. doi: 10.1021/acs.analchem.8b00083. Epub 2018 Apr 16.

DOI:10.1021/acs.analchem.8b00083

PMID:29658700

Abstract

Additive manufacturing provides a unique tool for prototyping structures toward electrochemical sensing, due to its ability to produce highly versatile, tailored-shaped devices in a low-cost and fast way with minimized waste. Here we present 3D-printed graphene electrodes for electrochemical sensing. Ring- and disc-shaped electrodes were 3D-printed with a Fused Deposition Modeling printer and characterized using cyclic voltammetry and scanning electron microscopy. Different redox probes KFe(CN):KFe(CN), FeCl, ascorbic acid, Ru(NH)Cl, and ferrocene monocarboxylic acid) were used to assess the electrochemical performance of these devices. Finally, the electrochemical detection of picric acid and ascorbic acid was carried out as proof-of-concept analytes for sensing applications. Such customizable platforms represent promising alternatives to conventional electrodes for a wide range of sensing applications.

摘要

增材制造为电化学传感的结构原型制作提供了独特的工具，因为它能够以低成本、快速的方式生产出高度通用、定制形状的器件，同时最大限度地减少浪费。在这里，我们展示了用于电化学传感的 3D 打印石墨烯电极。使用熔丝制造(Fused Deposition Modeling)打印机打印出环和盘形电极，并使用循环伏安法和扫描电子显微镜对其进行表征。不同的氧化还原探针 KFe(CN)6:K4Fe(CN)6、FeCl3、抗坏血酸、Ru(NH3)6Cl3 和二茂铁羧酸用于评估这些器件的电化学性能。最后，进行了电化学检测以证明对传感应用的概念验证分析物，例如苦味酸和抗坏血酸。这种可定制的平台代表了传统电极在各种传感应用中的有前途的替代品。

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3D 打印石墨烯/聚乳酸电极有望在电化学生物传感器中实现高灵敏度。

3D-Printed Graphene/Polylactic Acid Electrodes Promise High Sensitivity in Electroanalysis.

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