Using layer-by-layer self-assembly technique,we have successfully constructed nanostructured composite films of conjugated polymer (sulfonic acid ring substituted polyaniline, SPAn)/ semiconductor nanoparticles(Q-CdS)...Using layer-by-layer self-assembly technique,we have successfully constructed nanostructured composite films of conjugated polymer (sulfonic acid ring substituted polyaniline, SPAn)/ semiconductor nanoparticles(Q-CdS).The processes synthesis have been studied by UV-Vis, contact angle measurement, XPS and AFM techniques.The results indicated that the self-assembly processes were dependent on the pH of the solution of each component and the doping time.It has been found that the roughness of the assembled nano-composite films increases as the layer number increases.The main reason can be attributed to the generation of adsorption defects from partially adsorbed film surface in film fabrication processes.展开更多
以石墨烯-壳聚糖复合膜修饰玻碳电极,并在此复合膜上电沉积纳米铜,用于葡萄糖的无酶检测。以扫描电镜、傅立叶红外光谱及电化学交流阻抗谱对该复合膜微观形态进行表征,以循环伏安法、计时电流法对该电极的电化学行为进行研究。实验结果...以石墨烯-壳聚糖复合膜修饰玻碳电极,并在此复合膜上电沉积纳米铜,用于葡萄糖的无酶检测。以扫描电镜、傅立叶红外光谱及电化学交流阻抗谱对该复合膜微观形态进行表征,以循环伏安法、计时电流法对该电极的电化学行为进行研究。实验结果表明,在0.1 mol/L Na OH溶液中修饰电极对葡萄糖具有良好的催化氧化作用,该电极对葡萄糖的检测线性范围为5.6×10-5~1.2×10-3mol/L,检出限(S/N=3)为2.3×10-5mol/L。该修饰电极对样品的检测具有良好的稳定性、重现性。展开更多
文摘Using layer-by-layer self-assembly technique,we have successfully constructed nanostructured composite films of conjugated polymer (sulfonic acid ring substituted polyaniline, SPAn)/ semiconductor nanoparticles(Q-CdS).The processes synthesis have been studied by UV-Vis, contact angle measurement, XPS and AFM techniques.The results indicated that the self-assembly processes were dependent on the pH of the solution of each component and the doping time.It has been found that the roughness of the assembled nano-composite films increases as the layer number increases.The main reason can be attributed to the generation of adsorption defects from partially adsorbed film surface in film fabrication processes.
文摘以石墨烯-壳聚糖复合膜修饰玻碳电极,并在此复合膜上电沉积纳米铜,用于葡萄糖的无酶检测。以扫描电镜、傅立叶红外光谱及电化学交流阻抗谱对该复合膜微观形态进行表征,以循环伏安法、计时电流法对该电极的电化学行为进行研究。实验结果表明,在0.1 mol/L Na OH溶液中修饰电极对葡萄糖具有良好的催化氧化作用,该电极对葡萄糖的检测线性范围为5.6×10-5~1.2×10-3mol/L,检出限(S/N=3)为2.3×10-5mol/L。该修饰电极对样品的检测具有良好的稳定性、重现性。