基于溶胶-凝胶法合成的TiO₂纳米结构固定漆酶的电流型生物传感器的电化学研究与表征

Electrochemical Study and Characterization of an Amperometric Biosensor Based on the Immobilization of Laccase in a Nanostructure of TiO₂ Synthesized by the Sol-Gel Method.

作者信息

Romero-Arcos Mariana, Garnica-Romo Ma Guadalupe, Martínez-Flores Héctor Eduardo

机构信息

Programa Institucional de Doctorado en Ciencias Biológicas, Universidad Michoacana de San Nicolás de Hidalgo, Santiago Tapia 403, col. Centro, Morelia, Mich. cp 58000, Mexico.

Facultad de Ingeniería Civil, Universidad Michoacana de San Nicolás de Hidalgo, Santiago Tapia 403, col. Centro, Morelia, Mich cp 58000, Mexico.

出版信息

Materials (Basel). 2016 Jul 7;9(7):543. doi: 10.3390/ma9070543.

DOI:10.3390/ma9070543

PMID:28773666

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5456923/

Abstract

Laccase amperometric biosensors were developed to detect the catechol compound. The laccase enzyme (LAC) immobilization was performed on nanostructures of (a) titania (TiO₂); (b) titania/Nafion (TiO₂/NAF) (both immobilized by the sol-gel method) and a third nanostructure, which consisted of a single biosensor composite of Nafion and laccase enzyme denoted as NAF/LAC. The Nafion was deposited on a graphite electrode and used to avoid "cracking" on the matrix. The TiO₂ particle size was an average of 66 nm. FTIR spectroscopy vibration modes of different composites were determined. The electrochemical behavior of the biosensor was studied using electrochemical spectroscopy (EIS) and cyclic voltammetry (CV). The biosensor based on TiO₂/NAF/LAC presented the best electro-chemical properties with regard to sensitivity, stability and detection limit after a period of 22 days.

摘要

开发了漆酶安培生物传感器用于检测儿茶酚化合物。漆酶（LAC）固定在以下纳米结构上：（a）二氧化钛（TiO₂）；（b）二氧化钛/ Nafion（TiO₂/ NAF）（均通过溶胶 - 凝胶法固定）以及第三种纳米结构，其由Nafion和漆酶的单一生物传感器复合材料组成，记为NAF / LAC。Nafion沉积在石墨电极上，用于避免基质上出现“裂纹”。TiO₂的平均粒径为66nm。测定了不同复合材料的FTIR光谱振动模式。使用电化学光谱（EIS）和循环伏安法（CV）研究了生物传感器的电化学行为。基于TiO₂/ NAF / LAC的生物传感器在22天后在灵敏度、稳定性和检测限方面表现出最佳的电化学性能。

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基于溶胶-凝胶法合成的TiO₂纳米结构固定漆酶的电流型生物传感器的电化学研究与表征

Electrochemical Study and Characterization of an Amperometric Biosensor Based on the Immobilization of Laccase in a Nanostructure of TiO₂ Synthesized by the Sol-Gel Method.

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