1. Nanoflake-like SnS2 matrix for glucose biosensing based on direct electrochemistry of glucose oxidase
- Author
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Yang, Zhanjun, Ren, Yanyan, Zhang, Yongcai, Li, Juan, Li, Hongbo, Hu, Xiaochun Huang Xiaoya, and Xu, Qin
- Subjects
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NANOSTRUCTURED materials , *BLOOD sugar , *BIOSENSORS , *ELECTROCHEMISTRY , *CARBON electrodes , *CHARGE exchange , *X-ray diffraction , *FOURIER transform infrared spectroscopy - Abstract
Abstract: A novel biosensor is developed based on immobilization of proteins on nanoflake-like SnS2 modified glass carbon electrode (GCE). With glucose oxidase (GOD) as a model, direct electrochemistry of the GOD/nanoflake-like SnS2 is studied. The prepared SnS2 has large surface area and can offer favorable microenvironment for facilitating the electron transfer between protein and electrode surface. The properties of GOD/SnS2 are characterized by scanning electron microscopy (SEM), X-ray diffraction (XRD), UV–vis spectroscopy, Fourier transform infrared spectroscopy (FTIR) and cyclic voltammetry (CV), respectively. The immobilized enzyme on nanoflake-like SnS2 retains its native structure and bioactivity and exhibits a surface-controlled, reversible two-proton and two-electron transfer reaction with the apparent electron transfer rate constant (k s) of 3.68s−1. The proposed biosensor shows fast amperometric response (8s) to glucose with a wide linear range from 2.5×10−5 M to 1.1×10−3 M, a low detection limit of 1.0×10−5 M at signal-to-noise of 3 and good sensitivity (7.6±0.5mAM−1 cm−2). The resulting biosensor has acceptable operational stability, good reproducibility and excellent selectivity and can be successfully applied in the reagentless glucose sensing at −0.45V. It should be worthwhile noting that it opens a new avenue for fabricating excellent electrochemical biosensor. [Copyright &y& Elsevier]
- Published
- 2011
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