Pt/WC/TiO2催化剂的制备及其电催化性能研究

doi:10.61558/2993-074X.2829

电化学（中英文） ›› 2011, Vol. 17 ›› Issue (2): 149-154. doi: 10.61558/2993-074X.2829

Pt/WC/TiO2催化剂的制备及其电催化性能研究

马淳安*,俞彬,施梅勤,郎小玲

浙江工业大学化材学院，绿色化学合成技术国家重点实验室培育基地，浙江杭州，310032

收稿日期:2011-02-18 修回日期:2011-03-11 出版日期:2011-05-28 发布日期:2011-05-05
通讯作者: 马淳安 E-mail:science@zjut.edu.cn
基金资助:
浙江省国际科技合作重大专项(No. 2008C14040)，国际科技合作计划（2010DFB63680），浙江省自然科学基金重点项目（No. Z4100790）及浙江省教育厅科研项目(No. Y200908436)

Preparation and Electrocatalytic Activity of the Pt/WC/TiO2 Composites

MA Chun-An*, YU Bin, SHI Mei-Qin, LANG Xiao-Ling

State Key Laboratory Breeding Base of Green Chemistry Synthesis Technology, College of Chemical Engineering and Materials Science, Zhejiang University of Technology, Hangzhou 310032

Received:2011-02-18 Revised:2011-03-11 Published:2011-05-28 Online:2011-05-05
Contact: MA Chun-An E-mail:science@zjut.edu.cn

摘要/Abstract

摘要： 以TiO2为载体制备了Pt/WC/TiO2三元复合催化剂，并由XRD、SEM和TEM等表征催化剂样品的形貌和结构特征.用循环伏安法测定了三元复合催化剂在酸性条件下对甲醇氧化的电催化性能，并将其与二元复合催化剂Pt/TiO2和Pt/WC的电催化性能进行比较.结果表明：三元复合催化剂具有更好的催化活性.进一步研究了二氧化钛晶相对Pt/WC/TiO2催化剂电催化活性的影响.

关键词: 二氧化钛, 碳化钨, 催化剂, 电催化性能, 晶相

Abstract: TiO2 was used as the support for preparation of Pt/WC/TiO2 composite catalyst. The composites were characterized by XRD, SEM and TEM methods. The electrocatalytical activity of Pt/WC/TiO2 composite for oxidation of methanol was investigated by cyclic voltammetry. Pt/WC/TiO2 exhibited higher activity compared with that of Pt/TiO2 and Pt/WC composite catalysts. Based on this we discussed the effects of crystal phases of TiO2 on the electrocatalytical activity of Pt/WC/TiO2 composite catalyst.

Key words: titania, tungsten carbide, catalyst, electrocatalytic activity, crystal phase

中图分类号:

O646

马淳安, 俞彬, 施梅勤, 郎小玲. Pt/WC/TiO2催化剂的制备及其电催化性能研究[J]. 电化学（中英文）, 2011, 17(2): 149-154.

MA Chun-An, YU Bin, SHI Mei-Qin, LANG Xiao-Ling. Preparation and Electrocatalytic Activity of the Pt/WC/TiO2 Composites[J]. Journal of Electrochemistry, 2011, 17(2): 149-154.

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https://electrochem.xmu.edu.cn/CN/Y2011/V17/I2/149

参考文献

• [1]Levy R B, Boudart M. Platinum-like behavior of tungsten carbide in surface catalysis[J].Science, 1973, 181: 547-549.

• [2]Böhm H.New non-noble metal anode catalysts for acid fuel cells[J]. Nature, 1970, 227: 483.

• [3]Tiancun Xiao, Ahmad Hanif, Andrew P E York, et al.Study on preparation of high surface area tungsten carbides and phase transition during the carburisation[J]. Phys Chem

• [4]Xue Hua-xin,Song Guo-xin,Wang Lin,et al. Studies of n-pentane reaction on tungsten carbides promoted S2O2-8/ZrO2 solid superacid satalysts[J]. Acta Chim Sin, 2003, 61(2):208.

• [5]Zhang Yong-fan, Lin Wei, Wang Wen-feng, et al. A first principle study on the phase stability and chemical bonding of the 3d transition metal carbides[J]. Acta Chim Sin, 2004, 62: 1041.

• [6]Zellner M B, Chen J G.Surface science and electrochemical studies of WC and W2C PVD films as potential electrocatalysts[J]. Catal Today, 2005, 99:299.

• [7]McIntyre D R, Burstein G T,Vossen A. Effect of carbon monoxide on the electrooxidation of hydrogen by tungsten carbide[J]. J Power Sources, 2002, 107: 67.

• [8] Wu H, Chen J G, J. Vac. Sci. Technol. A 21 (2003) 148

• [9] Ganesan R, Lee J S. Tungsten carbide microspheres as a noble-metal-economic electrocatalyst for methanol oxidation. Angew Chem Int,Ed. 44 (2005) 6557

• [10] Tauster S J, Fung S C, Garten R L. Strong metal support interactions.Group 8 Noble Metals Supported on TiO2.J.Am.Chem.Soc.1978:170-175

• [11]Pavlova S N, Sadykov V A, Bulgakov N N, et al. The influence of support on the low-temperature activity of Pd in the reaction of CO oxidation: 3. Kinetics and mechanism of the reaction[J]. J Catal, 1996, 161:517.

• [12]Liu Jing-hua,Yu Chun-bo,Wang Yu-jiang,et al. Studies on electrocatalytic performance of titanium oxide electrode modified with Pt toward oxidation of CO[J]. Chem J Chin Univ, 2003, 24:2263.

• [13]Yang Su-dong,Zhang Xiao-gang,Mi Hong-yu,et al. Pd nanoparticles supported on functionalized multi-walled carbon nanotubes (MWCNTs) and electrooxidation for formic acid[J].Power Sources, 2008, 175:266.

• [14]Hayden B E, Malevich D V, Pletcher D. Platinum catalysed nanoporous titanium dioxide electrodes in H2SO4 solutions[J]. Electrochem Commun, 2001, 3:395.

• [15]von Kraemer S, Wikander K, Lindbergh G, et al. Evaluation of TiO2 as catalyst support in Pt-TiO2/C composite cathodes for the proton exchange membrane fuel cell[J]. J Power Sources, 2008, 180:185.

• [16]Shi Bin-bin, Yao Guo-xin, Li Guo-hua, et al. Preparation of tungsten carbide-titania nanocomposite and its electrocatalytic activity[J].Chin J Catal, 2010,(31):466-470.

• [17]Zhu Jia-hua,Shi Yi-jun,Feng Xin,et al. Prediction on tribological properties of carbon fiber and TiO2 synergistic reinforced polytetrafluoroethylene composites with artificial neural networks[J].Mater Des, 2009,(30):1042-1049.

• [18]Liu Zhao-lin, Ling Xing-yi, Su Xiao-di, et al.Carbon-supported Pt and PtRu nanoparticles as catalysts for a direct methanol fuel cell[J]. J Phys Chem B, 2004,108:8234-8240.

• [19]Hajime Lida, Akira Igarashi. Characterization of a Pt/TiO2(rutile) catalyst for water gas shift reaction at low-temperature[J]. Appl Catal A: General 2006,298: 152-160.

Pt/WC/TiO2催化剂的制备及其电催化性能研究

Preparation and Electrocatalytic Activity of the Pt/WC/TiO2 Composites

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