Layer-by-Layer Assembly of Silicotungstate Multilayer Films Modified on Glassy Carbon Electrode and Their Electrochemical Behaviors

Jinyan Du, Guiqin Lv, Changwen Hu, Huaqiang Wu
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引用次数: 3

Abstract

A new electrode was modified by multilayer films composed of heteropolyanion (SiW12) and cationic polymer poly(diallyldimethylammonium chloride) through electrochemical growth. The modified electrode electrochemical behavior, the effect of solution pH and electrocatalytic response to the reduction of BrO3- and NO2- have been investigated. The result shows that the electrochemical process of multilayer films modified electrode including SiW12 is a reversible process by electrochemical step. One-electron process has no proton participation in the first step, and one-electron process is accompanied by one proton participation in the second step and two-electron process is accompanied by two protons participation in the third step. The films grow uniformly, and the peak currents increase with increasing layer numbers. The peak currents increase with scan rate, and the reduced potentials of multilayer films shift negatively with increasing pH. The electrochemical mechanism of multilayer films was suggested.

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钨酸硅多层膜在玻碳电极上的逐层组装及其电化学行为
采用电化学生长的方法,将杂多阴离子(SiW12)与阳离子聚合物聚二烯基二甲基氯化铵(diallyldimethylam氯化铵)组成的多层膜对电极进行了修饰。研究了改性电极的电化学行为、溶液pH和电催化反应对BrO3-和NO2-还原的影响。结果表明,含SiW12的多层膜修饰电极的电化学过程是一个电化学步骤可逆的过程。单电子过程第一步没有质子参与,单电子过程第二步有一个质子参与,双电子过程第三步有两个质子参与。薄膜生长均匀,峰值电流随层数的增加而增加。峰值电流随扫描速率的增加而增加,多层膜的还原电位随ph的增加而负移。
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