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Pt-WO3/C电极表面活化对乙二醇和CO氧化的作用
引用本文:曲微丽,邬冰,孙芳,高颖,陆天虹,刘长鹏,邢巍. Pt-WO3/C电极表面活化对乙二醇和CO氧化的作用[J]. 化学学报, 2005, 63(17): 1565-1569,F0005
作者姓名:曲微丽  邬冰  孙芳  高颖  陆天虹  刘长鹏  邢巍
作者单位:1. 哈尔滨师范大学化学系,哈尔滨,150080
2. 中国科学院长春应用化学研究所,长春,130022;南京师范大学化学与环境科学学院,南京,210097
3. 中国科学院长春应用化学研究所,长春,130022
基金项目:国家科技部“973”基金(No.G2000026408)、“863”计划(No.2003AA517062)、国家自然科学基金(Nos.20373068,20433060)、黑龙江省教育厅基金(No.10531082)、江苏省科技厅高新技术基金(No.BG200302)、江苏省教育厅高新技术产业化基金(No.JH02-080)和国家“211”工程重点学科建设资助项目.
摘    要:用丙酮和四氢呋喃混合溶液对Pt—WO3/C电极进行表面活化处理后,乙二醇在Pt—WO3/C电极上的电催化氧化活性大幅度提高.发现无论在中性溶液中还是在酸性溶液中,表面活化处理后的Pt—WO3/C电极,乙二醇的起始氧化电位负移,氧化峰电流在酸性介质中增加到表面活化处理前的3.2倍:中性介质中增加到表面处理前的4.7倍,其主要原因是表面活化处理后,一方面增加了催化剂Pt的活性表面,另一方面也促进了电极表面吸附的CO的电氧化,减少了CO对电极表面的毒化作用.

关 键 词:乙二醇 CO 电催化氧化 燃料电池 表面活化处理 电极表面 CO氧化 催化氧化活性 混合溶液 四氢呋喃
收稿时间:2004-11-23
修稿时间:2004-11-232005-05-13

Effect of Surface Treatment on Electrocatalytic Activity of Pt-WO3/C Electrode for Ethylene Glycol and CO Electrooxidation
QU,Wei-Li,WU,Bing,SUN,Fang,GAO,Ying,LU Tian-Hong,LIU Chang-Peng,XING Wei. Effect of Surface Treatment on Electrocatalytic Activity of Pt-WO3/C Electrode for Ethylene Glycol and CO Electrooxidation[J]. Acta Chimica Sinica, 2005, 63(17): 1565-1569,F0005
Authors:QU  Wei-Li  WU  Bing  SUN  Fang  GAO  Ying  LU Tian-Hong  LIU Chang-Peng  XING Wei
Abstract:After the Pt-WO3/C electrode was treated with mixed solvent of tetrahydrofuran and acetone, the electrocatalytic activity of the Pt-WO3/C electrode for the ethylene glycol oxidation was significantly increased. The onset potential of the ethylene glycol oxidation was shifted to the negative direction compared with that at the untreated Pt-WO3/C electrode. In the acidic solution, the peak current of the ethylene glycol oxidation at the treated Pt-WO3/C electrode was 3.2 times as large as that at the untreated Pt-WO3/C electrode. In the neutral solution, it became 4.7 times. The main reason is that the treatment can remove the impurity, such as the surfactant introduced in the preparation of the Pt-WO3/C electrode, which changes the surface structure of the electrode to a certain extent and increases the exposure surface area of Pt. In addition, the treatment of the Pt-WO3/C electrode can promote the oxidation of COad, the intermediate of the ethylene glycol oxidation, and thus, decrease the poison effect of the adsorbed CO to the electrode. The treatment method is simple and effective.
Keywords:ethylene glycol   CO   electrocatalytic oxidation   fuel cell
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