Xiaolin Ke, Guodong Zhu, Yong Dai, Yuqing Shen, Jianmao Yang, Jianyun Liu
文献索引:10.1016/j.jelechem.2018.04.001
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Pt-ZnO nanotubes were synthesized by one-pot electrospinning polyacrylonitrile (PAN) and polyvinyl pyrrolidone (PVP) bipolymer in the presence of zinc acetate and chloroplatinic acid, followed by the calcination of nanofibers. The tubular structure of Pt-ZnO composite and the homogeneous distribution of Pt nanoparticles were confirmed by scanning electron microscopy (SEM) and transmission electron microscopy (TEM). X-ray diffraction (XRD) characterization demonstrates that ZnO exhibits the hexagonal wurtzite structure, while Pt particles exist mainly in the form of cubic Pt. Zero valence Pt is confirmed by X-ray photo spectroscopy (XPS). Pt-ZnO drop-coated glassy carbon electrode (Pt-ZnO/GCE) was employed for the measurement of H2O2. The Pt/Zn molar ratio affects the catalytic activity to H2O2 reduction. Pt-ZnO/GCE with the Pt/Zn ratio of 1:3 displayed the best catalytic performance, and a corresponding linear relationship was obtained with H2O2 concentrations ranging from 2 × 10−5 M to 5 × 10−3 M (R2 = 0.9969). The limit of detection is 1.5 × 10−6 M (S/N ≥ 3). The electrospun-based Pt-ZnO nanotubes have a great potential for electrochemical sensing.
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