Preparation of Ti/PTFE-F-PbO2 Electrode with a Long Life from the Sulfamic Acid Bath and Its Application in Organic Degradation 被引量：5

Preparation of Ti/PTFE-F-PbO2 Electrode with a Long Life from the Sulfamic Acid Bath and Its Application in Organic Degradation

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摘要 A polytetrafluoroethylene （PTFE）-doped PbO2 electrode on a Ti substrate was prepared by galvanostatic method from the sulfamic acid bath （Ti/PTFE-F-PbO2-I） or nitric acid bath （Ti/PTFE-F-PbO2-II）. Scanning Electron Microscopy revealed that the Ti/PTFE-PbO2-I electrode had a more regular morphology with smaller size crystals than the Ti/PTFE-F-PbO2-II electrode. On the basis of the results of both the accelerated electrolysis test and the empirical formula for estimating the service life of an electrode, the service life of the Ti/PTFE-PbO2-I electrode was predicted to be more than 7 years under conventional electrolysis conditions （0.1 A·cm^-2）. During the treatment of 4-chlorophenol-contaminated water, the Ti/PTFE-PbO2-I anode showed both a good electro-catalytic activity and high electrochemical stability, exhibiting an excellent potential application. polytetrafluoroethylene (PTFE ) 在 Ti 底层上做了 PbO2 电极被 galvanostatic 方法从 sulfamic 酸洗澡(Ti/PTFE-F-PbO2-I ) 或硝酸洗澡(Ti/PTFE-F-PbO2-II ) 准备。扫描电子显微镜学表明 Ti/PTFE-PbO2-I 电极比 Ti/PTFE-F-PbO2-II 电极与更小的尺寸晶体有更常规的形态学。根据为估计一个电极的服务生活的加速的电解测试和实验公式的结果， Ti/PTFE-PbO2-I 电极的服务生活被预言是在常规电解条件下面的超过 7 年(0.1

作者洪夏萍张蓉童少平马淳安

机构地区 College of Chemical Engineering and Materials Science

出处《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2011年第6期1033-1038,共6页 中国化学工程学报（英文版）

基金 Supported by the National Natural Science Foundation of China （20406019, 20876151）

关键词 lead dioxide sulfamic acid electrochemical oxidation 4-CHLOROPHENOL PbO2电极有机物降解酸浴应用氨基制备长寿命电子显微镜观察

分类号 TQ341.106 [化学工程—化纤工业] X132 [环境科学与工程—环境科学]

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1Sundarapandiyan, S., Chandrasekar, R., Ramanaiah, B., "Electro- chemical oxidation and reuse of tannery saline wastewater", J. Haz-ard. Mater., 180 (1-3),197 203 (2010).
2Bomls, C., Laredo, T., Mostany, J., Scharifker, B.R., "Study of the oxidation of solutions of p-chlorophenol and p-nitrophenol on Bi-doped PbO2 electrodes by UV-Vis and FTIR in situ spectroscopy" Electrochim. Acta, 49 (4), 641-648 (2004).
3Carter, K.E., Farrell, J., "Electrochemical oxidation of trichloro- ethylene using boron-doped diamond film electrodes", Environ. Sci. Technol., 43 (21), 8350 8354 (2009).
4Sires, L, Low, C.T.J., Ponce-de-leen, W.F.C., "The deposition of nano structured β-PbO2 films from aqueous methanesulfonic acid for the electrochemical oxidation of organic pollutants", Electrochem. Commun., 12 (1), 70 74 (2010).
5Feng, Y.J., Li, X.Y., "Electro-catalytic oxidation of phenol on several metal-oxide electrodes in aqueous solution", Water Res., 37 (10), 2399 2407 (2003).
6Weiss, E., Groenen-Serrano, K., Savall, A., "A comparison of elec- trochemical degradation of phenol on boron doped diamond and lead dioxide anodes", J. Appl. Electrochem., 38 (3), 329-337 (2008).
7Cattarin, S., Frateur, I., Guerriero, P., Musiani, M., "Electrodeposi- tion of PbO2 + CoOx composites by simultaneous oxidation of Pb2" and Co2+ and their use as anodes for 02 evolution", Electrochim. Acta, 45 (14), 2279 2288 (2000).
8Da Silva, L.M, Fernandes, K.C., De Faria, L.A., Boodts, J.F.C., "Electrochemical impedance spectroscopy study during accelerated life test of conductive oxides: Ti/(Ru + Ti + Ce)O:-system", Elec- trochim. Acta, 49 (27), 4893-4906 (2004).
9Velichenko, A.B., Amadelli, R., ZucchinL (2L., Girenko, D.V., Danilov, F.I., "Electrosynthesis and physicochemical properties of Fe-doped lead dioxide electrocatalysts", Electrochim. Acta, 45 (25-26), 4341-4350 (2000).
10Velichenko, A.B., Devilliers, D., "Electrodeposition of fluorine-doped Iead dioxide", J. Fluorine Chem., 128 (4), 269 276 (2007).

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2邱晨,常明.钛基氧化钌电极在油田污水处理中的研究[J].天津理工大学学报,2010,26(2):36-39. 被引量：4
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6张骥小,喻敬贤,杨汉西.钴离子对硫酸中PbO_2电极的影响[J].电池,2004,34(3):166-168. 被引量：1
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1孙璞,李琴.水中细菌浓度对五日生化需氧量的影响[J].安徽水利科技,1996(4):35-37.
2Wolfgang Marquardt,Erika Brggemann,Jost Heintzenberg,褚方鸿.酸浴清洗着德国东部[J].人类环境杂志,1996,25(3):214-215.
3郭莹莹,黄泽春,王琪,黄启飞,张增强.电子废物酸浴处置区附近农田土壤重金属污染特征[J].环境科学研究,2011,24(5):580-586. 被引量：9
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8战培荣,刘伟,陈中祥,刘永,赵彩霞.漂白粉和敌百虫对净化养鱼水生物膜活性的影响[J].环境科学研究,2004,17(5):56-59. 被引量：2
9苏秦,虞向锋,施丽莉,王国龙.pH值对超临界水氧化法降解有机物影响的研究[J].浙江化工,2008,39(4):4-5. 被引量：1
10方明成,吴珊,李桂枝.生化制药废水处理小试研究[J].水利水电科技进展,1999,19(5):44-45.

Chinese Journal of Chemical Engineering

2011年第6期

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Preparation of Ti/PTFE-F-PbO2 Electrode with a Long Life from the Sulfamic Acid Bath and Its Application in Organic Degradation 被引量：5

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