直接甲酸燃料电池的两大问题是Pd催化剂对甲酸氧化的电催化稳定性不好和Pd能催化甲酸分解.研究发现,当Pd/C在偏钒酸钠溶液中浸泡后能吸附上VO3-,吸附上VO3-的Pd/C催化剂对甲酸分解的催化性能会大大降低,由甲酸分解产生的CO的量也大大降低,使Pd/C催化剂被CO毒化的几率也大大降低,因此,在偏钒酸钠溶液中浸泡后的Pd/C催化剂对甲酸氧化的峰电流密度要比没有浸泡的Pd/C催化剂高13%左右.计时电流曲线的测量表明,6000s时在偏钒酸钠溶液中浸泡后的Pd/C催化剂对甲酸氧化的峰电流密度要比没有浸泡的Pd/C催化剂高42%左右.结果证明,在偏钒酸钠溶液中浸泡能提高Pd/C催化剂对甲酸氧化的电催化活性,特别是电催化稳定性.
参考文献
| [1] | LU Tianhong,TANG Yawen,ZHANG Lingling,et al.Advantages of Direct Formic Acid Fuel Cell[J].Chinese Battery Ind,2007,12(3):412-414(in Chinese).陆天虹,唐亚文,张玲玲,等.直接甲酸燃料电池的优越性[J].电池工业,2007,12(3):412-414. |
| [2] | Herrero E,Llorca M J,Feliu J M,et al.Oxidation of Formic Acid on Pt (100) Electrodes Modified by Irreversibly Adsorbed Tellurium[J].J Electroanal Chem,1995,383(1/2):145-151. |
| [3] | Ha S,Adams B,Masel R I.A Miniature Air Breathing Direct Formic Acid Fuel Cell[J].J Power Sources,2004,128(2):119-124. |
| [4] | Ha R I,Masel R I,Waszczuk P,et al.Direct Formic Acid Fuel Cells[J].J Power Sources,2002,111(1):83-89. |
| [5] | Rhee Y W,Ha S Y,Rice C,et al.Crossover of Formic Acid through Nation Membranes[J].J Power Sources,2003,117(1/2):35-38. |
| [6] | Wang X,Hu J M,Hsing I M.Electrochemical Investigation of Formic Acid Electrooxidation and Its Crossover through a Nafion Membrane[J].J Electroanal Chem,2004,562(1):73-80. |
| [7] | Wang Z H,Qiu K Y.Electrocatalytic Oxidation of Formic Acid on Platinum Nanoparticle Electrode Deposited on the Nichrome Substrate[J].Electrochem Commun,2006,8(7):1075-1081. |
| [8] | Correia A N,Mascaro L H,Machado S A S,et al.Amorphous Palladium-Silicon Alloys for the Oxidation of Formic Acid and Formaldehyde.A Voltammetric Investigation[J].J Braz Chem Soc,1999,10(6):478-482. |
| [9] | Ha S,Rice C A,Masel R I,et al.Methanol Conditioning for Improved Performance of Formic Acid Fuel Cells[J].J Power Sources,2002,112(2):655-659. |
| [10] | Kibler L A,El-Aziz A M,Kolb D M.Electrochemical Behavior of Pseudomorphic Overlayers:Pd on Au(111)[J].J Mol Catal A:Chem,2003,199(1/2):57-63. |
| [11] | Rice C,Ha S,Masel R I,et al.Catalysts for Direct Formic Acid Fuel Cells[J].J Power Sources,2003,115(2):229-235. |
| [12] | Zhang L L,Lu T H,Bao J C,et al.Preparation Method of an Ultrafine Carbon Supported Pd Catalyst as an Anodic Catalyst in a Direct Formic Acid Fuel Cell[J].Electrochem Commun,2006,8(10):1625-1627. |
| [13] | Lu G Q,Crown A,Wieckowski,A.Formic Acid Decomposition on Polycrystalline Platinum and Palladized Platinum Electrodes[J].J Phys Chem B,1999,103(44):9700-9711. |
| [14] | Ge J J,Chen X M,Liu C P,et al.Promoting Effect of Vanadium Ions on the Anodic Pd/C Catalyst for Direct Formic Acid Fuel Cell Application[J].Electrochim Acta,2010,55 (28):9132-9138. |
| [15] | CHEN Ying,TANG Yawen,GAO Ying,et al.Preparation of Carbon Supported Pd Catalyst by Improved Liquid Phase Reduction Method[J].Chinese J Appl Chem,2009,26 (8):985-988 (in Chinese).陈滢,唐亚文,高颖,等.用改进液相还原法制备炭载Pd催化剂[J].应用化学,2009,26(8):985-988. |
| [16] | Feliu J M,Herrero E.In:Vidstich W,Gasteiger H A,Lamm A,Eds.Handbook of Fuel Cells[M].New York:Wiley,2003:679. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%