在 ITO/玻璃表面气相聚合 PEDOT,用于多巴胺的非酶检测

IF 4 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Synthetic Metals Pub Date : 2024-06-26 DOI:10.1016/j.synthmet.2024.117691
Kurtuluş Yılmaz , Ali Akbar Hussaini , Murat Yıldırım , Mustafa Karaman
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引用次数: 0

摘要

本研究证明了聚(3,4-亚乙二氧基噻吩)(PEDOT)作为导电聚合物沉积在 ITO 涂层玻璃表面,用于生产检测多巴胺的非酶电化学传感器。为此,采用气相聚合法(VPP)从相应的单体 3,4-乙烯二氧噻吩中合成了 PEDOT 薄膜,并使用氯化铁(III)作为氧化剂。薄膜在不同的基底温度下沉积,利用傅立叶变换红外光谱和 XPS 分析研究了掺杂和共轭水平的温度依赖性。在 40 °C 下沉积的薄膜掺杂和共轭水平最高,薄膜厚度也最大(380 nm),电导率最高(111 S/cm)。ITO/玻璃和 PEDOT/ITO 电极的电化学反应存在显著差异。安培测量表明,使用合成的 PEDOT/ITO 电极,多巴胺的检测限值为 2.02 µM。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Vapor phase polymerization of PEDOT on ITO/glass surfaces for nonenzymatic detection of dopamine

This study demonstrates the deposition of poly(3,4-ethylenedioxythiophene) (PEDOT) as an electrically conductive polymer on the ITO-coated glass surfaces for the production of a non-enzymatic electrochemical sensor to detect dopamine. For this purpose, thin films of PEDOT were synthesized using vapor phase polymerization (VPP) from the corresponding monomer 3,4-ethylenedioxythiophene, in which iron(III)chloride was used as the oxidant. Films were deposited at different substrate temperatures, where the temperature dependence of doping and conjugation levels were studied using FTIR and XPS analyses. The highest doping and conjugation levels, as well as the highest film thickness (380 nm) was observed for the film deposited at 40 °C, which represented the highest conductivity of 111 S/cm. Significant differences were observed between the electrochemical responses of ITO/glass and PEDOT/ITO electrodes. Amperometric measurements indicated a limit of detection value of 2.02 µM for dopamine using as-synthesized PEDOT/ITO electrode.

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来源期刊
Synthetic Metals
Synthetic Metals 工程技术-材料科学:综合
CiteScore
8.30
自引率
4.50%
发文量
189
审稿时长
33 days
期刊介绍: This journal is an international medium for the rapid publication of original research papers, short communications and subject reviews dealing with research on and applications of electronic polymers and electronic molecular materials including novel carbon architectures. These functional materials have the properties of metals, semiconductors or magnets and are distinguishable from elemental and alloy/binary metals, semiconductors and magnets.
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