Behavior of PQQ Glucose Dehydrogenase on Prussian Blue‐Modified Carbon Electrode
V. LaurinavičiusBogumila KurtinaitienėRasa Stankevičiūtė
Abstract
Abstract Glucose sensitive biosensor containing pyrroloquinoline quinone (PQQ)‐dependent glucose dehydrogenase immobilized on Prussian blue (PB)‐modified graphite electrode was designed. Properties of the biosensor were investigated in the cathodic and anodic response detection regions. It was shown, that anodic response of the biosensor is sum of two signals: direct electron transport from reduced PQQ to the electrode and by formation of the PQQ‐oxygen‐PB‐carbon ternary complex. Cathodic response of the biosensor is based on the oxidation of the reduced PQQ by PB‐oxygen‐PB complex. Electrochemical regeneration of the enzyme does not produce free hydrogen peroxide.
Metrics
Citation History
Topics
Related Documents
Renewable three-dimensional Prussian blue modified carbon ceramic electrode
Peng WangYi YuanXiangping WangGuoyi Zhu
Amperometric glucose microbiosensor based on a Prussian Blue modified carbon fiber electrode for physiological applications
Pedro SalazarRobert O’NeillMiriam MartínR. RocheJosé Luis González–Mora
Glucose Nanosensor Based on Prussian-Blue Modified Carbon-Fiber Cone Nanoelectrode and an Integrated Reference Electrode
Xueji ZhangJoseph WangBožidar OgorevcUrsula E. Spichiger
Glucose Nanosensor Based on Prussian-Blue Modified Carbon-Fiber Cone Nanoelectrode and an Integrated Reference Electrode
Xueji ZhangJoseph WangBožidar OgorevcUrsula E. Spichiger
Design and Preparation of Nanostructured Prussian Blue Modified Electrode for Glucose Detection
Wanqin JinZhenyu ChuYannan Zhang