透明的聚（3,4-乙撑二氧噻吩）：聚苯乙烯磺酸盐（PEDOT:PSS）涂层氧化铟锡（ITO）微电极的特性

Characteristics of Transparent, PEDOT:PSS Coated Indium-Tin-Oxide (ITO) Microelectrodes.

作者信息

Yang Weiyang, Broski Allison, Wu Jiajia, Fan Qi Hua, Li Wen

机构信息

Microtechnology Laboratory.

Oakland University, Rochester, MI, USA.

出版信息

IEEE Trans Nanotechnol. 2018 Jul;17(4):701-704. doi: 10.1109/TNANO.2017.2785627. Epub 2017 Dec 20.

DOI:10.1109/TNANO.2017.2785627

PMID:30745860

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6368347/

Abstract

This paper reports on electrochemical and optical characteristics of flexible, transparent microelectrodes, which consist of thin poly-(3, 4-ethylenedioxythiophene)/poly(styrenesulfonate) (PEDOT:PSS) spun onto indium-tin-oxide (ITO) electrodes for potential applications in biomedical optoelectronic devices. Although PEDOT:PSS/ITO combined films have been extensively investigated for applications in optical devices, such as solar cells and LEDs, PEDOT:PSS/ITO films for use in electrophysiological recording have not been well-characterized yet. In this work, PEDOT:PSS coated ITO microelectrodes with various diameters of 10 μm, 37 μm, 50 μm and 80 μm were microfabricated and characterized, and their properties were compared with plain ITO microelectrodes. Experimental results demonstrate that PEDOT:PSS coated ITO electrodes exhibit decreased electrochemical impedance, well-performed stability in saline, and increased charge storage capacity while preserving excellent optical transparency and mechanical flexibility. Equivalent circuit models were fitted to the experimental results to analytically extract interface capacitance, charge transfer resistance and solution resistance at the electrode-electrolyte interface.

摘要

本文报道了柔性透明微电极的电化学和光学特性，该微电极由旋涂在铟锡氧化物（ITO）电极上的聚（3,4-乙撑二氧噻吩）/聚（苯乙烯磺酸盐）（PEDOT:PSS）薄膜组成，有望应用于生物医学光电器件。尽管PEDOT:PSS/ITO复合薄膜在诸如太阳能电池和发光二极管等光学器件中的应用已得到广泛研究，但用于电生理记录的PEDOT:PSS/ITO薄膜尚未得到充分表征。在这项工作中，制备并表征了直径分别为10μm、37μm、50μm和80μm的PEDOT:PSS涂覆的ITO微电极，并将其性能与普通ITO微电极进行了比较。实验结果表明，PEDOT:PSS涂覆的ITO电极表现出降低的电化学阻抗、在盐溶液中良好的稳定性以及增加的电荷存储容量，同时保持了优异的光学透明度和机械柔韧性。通过将等效电路模型拟合到实验结果中，分析提取了电极-电解质界面处的界面电容、电荷转移电阻和溶液电阻。

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