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Direct electrochemistry of glucose oxidase assembled on graphene and application to glucose detection

2010; Elsevier BV; Volume: 55; Issue: 28 Linguagem: Inglês

10.1016/j.electacta.2010.07.079

1873-3859

Ping Wu, Qian Shao, Yaojuan Hu, Juan Jin, Yajing Yin, Hui Zhang, Chenxin Cai,

Electrochemical Analysis and Applications

The direct electrochemistry of glucose oxidase (GOx) integrated with graphene was investigated. The voltammetric results indicated that GOx assembled on graphene retained its native structure and bioactivity, exhibited a surface-confined process, and underwent effective direct electron transfer (DET) reaction with an apparent rate constant (ks) of 2.68 s−1. This work also developed a novel approach for glucose detection based on the electrocatalytic reduction of oxygen at the GOx–graphene/GC electrode. The assembled GOx could electrocatalyze the reduction of dissolved oxygen. Upon the addition of glucose, the reduction current decreased, which could be used for glucose detection with a high sensitivity (ca. 110 ± 3 μA mM−1 cm−2), a wide linear range (0.1–10 mM), and a low detection limit (10 ± 2 μM). The developed approach can efficiently exclude the interference of commonly coexisting electroactive species due to the use of a low detection potential (−470 mV, versus SCE). Therefore, this study has not only successfully achieved DET reaction of GOx assembled on graphene, but also established a novel approach for glucose detection and provided a general route for fabricating graphene-based biosensing platform via assembling enzymes/proteins on graphene surface.