可加工聚苯胺修饰电极改善电位pH响应。葡萄糖生物传感器的应用

A. Karyakin, L. V. Lukachova, E. E. Karyakina, A. Orlov, G. P. Karpachova
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引用次数: 39

摘要

与基于常规聚苯胺的电极相比,可加工聚苯胺修饰电极具有先进的电位pH响应特性。在pH 3-9范围内,用PCPAn浸渍修饰的玻碳电极表现出完全可逆的电位响应,约为90 mV pH - 1。PCPAn修饰电极的电位响应明显高于现有器件,这是基于聚苯胺氧化还原反应的热力学解释的。以可加工聚苯胺为基础,采用非水酶学方法进行酶固定化,研制了葡萄糖电位生物传感器。在模拟血清的模型溶液中,生物传感器可用于0.1 ~ 30 mM浓度范围内的葡萄糖检测,最大响应值可达≈80 mV。PCPAn修饰电极的先进电位响应特性为其在传感器和生物传感器的开发提供了应用前景。
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The improved potentiometric pH response of electrodes modified with processible polyaniline. Application to glucose biosensor
Processible polyaniline (PCPAn) modified electrodes are characterized by an advanced potentiometric pH response in comparison to those based on regular polyaniline. Glassy carbon electrodes modified with PCPAn by dip-coating exhibited a fully reversible potentiometric response of approximately 90 mV pH–1 over the range pH 3–9. Such significantly higher potentiometric responses of PCPAn modified electrodes compared to existing devices is explained on the basis of the thermodynamics of polyaniline redox reactions. The potentiometric biosensor for glucose based on processible polyaniline has been developed using a non-aqueous enzymology approach for enzyme immobilization. In the model solution, which mimics blood serum, the biosensor was useful for glucose detection over the concentration range 0.1–30 mM and the maximum response value reached was ≈80 mV. The advanced potentiometric response of PCPAn modified electrodes provides their application for sensor and biosensor development.
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