引用本文:
Yuan Zhong MA. The Amperometric Glucose Enzyme Electrode by Immobilized Glucose Oxidase in Glucose oxidase/N-ethyl-Poly (4-vinyl)pyridine Multilayer[J]. Chinese Chemical Letters,
1998, 9(11): 1039-1041.
Citation: Yuan Zhong MA. The Amperometric Glucose Enzyme Electrode by Immobilized Glucose Oxidase in Glucose oxidase/N-ethyl-Poly (4-vinyl)pyridine Multilayer[J]. Chinese Chemical Letters, 1998, 9(11): 1039-1041.
Citation: Yuan Zhong MA. The Amperometric Glucose Enzyme Electrode by Immobilized Glucose Oxidase in Glucose oxidase/N-ethyl-Poly (4-vinyl)pyridine Multilayer[J]. Chinese Chemical Letters, 1998, 9(11): 1039-1041.
The Amperometric Glucose Enzyme Electrode by Immobilized Glucose Oxidase in Glucose oxidase/N-ethyl-Poly (4-vinyl)pyridine Multilayer
摘要:
Multilayers of glucose oxidase (GOD)/N-ethyl-poly (4-vinyl) pyridine (EPVP) have been assembled on thiol self-assembled monolayers on gold electrode. Tliis electrode can be used as an amperometric enzyme electrode for glucosc. Fe (CN)63_/4_ incorporated in EPVP layer acts as the electron mediator, the linear range was 0.1 to 6mmol/L when the number of GOD layers was 5.
English
The Amperometric Glucose Enzyme Electrode by Immobilized Glucose Oxidase in Glucose oxidase/N-ethyl-Poly (4-vinyl)pyridine Multilayer
Abstract:
Multilayers of glucose oxidase (GOD)/N-ethyl-poly (4-vinyl) pyridine (EPVP) have been assembled on thiol self-assembled monolayers on gold electrode. Tliis electrode can be used as an amperometric enzyme electrode for glucosc. Fe (CN)63_/4_ incorporated in EPVP layer acts as the electron mediator, the linear range was 0.1 to 6mmol/L when the number of GOD layers was 5.
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