An efficient antimony doped tin oxide and carbon nanotubes hybrid support of Pd catalyst for formic acid electrooxidation

International Journal of Hydrogen Energy

Volumn 39, Issue 11, 2014, Pages 5678-5688

  Qu, Weili ^a,b   Wang, Zhenbo ^a   Sui, Xulei ^a   Gu, Daming ^a  

^a HARBIN INSTITUTE OF TECHNOLOGY   (China)

^b HARBIN NORMAL UNIVERSITY   (China)

Author keywords

Antimony doped tin oxide support; Direct formic acid fuel cell; Formic acid electrooxidation; Pd catalyst

Indexed keywords

CARBON NANOTUBES; CATALYST SUPPORTS; CHRONOAMPEROMETRY; CYCLIC VOLTAMMETRY; ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY; ELECTROOXIDATION; EMISSION SPECTROSCOPY; FORMIC ACID FUEL CELLS (FAFC); HIGH RESOLUTION TRANSMISSION ELECTRON MICROSCOPY; INDUCTIVELY COUPLED PLASMA; METAL NANOPARTICLES; NANOCOMPOSITES; PALLADIUM; PHOTOELECTRONS; TIN; X RAY DIFFRACTION; X RAY PHOTOELECTRON SPECTROSCOPY;

ANTIMONY DOPED TIN OXIDES (ATO); ANTIMONY-DOPED TIN OXIDE; DIRECT FORMIC ACID FUEL CELLS; ENERGY DISPERSIVE ANALYSIS OF X-RAYS; FORMIC ACID ELECTROOXIDATION; INDUCTIVELY COUPLED PLASMA-OPTICAL EMISSION SPECTROSCOPY; PD CATALYST; PHYSICAL AND CHEMICAL PROPERTIES;

FORMIC ACID;

EID: 84897411397     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2014.01.116     Document Type: Conference Paper

References (39)

1. x/C anodic catalyst for formic acid electrooxidation Int J Hydrogen Energy 37 2012 4812 4818
2. S.D. Yang, C.M. Shen, Y.Y. Liang, H. Tong, W. He, and X.Z. Shi et al. Graphene nanosheets - polypyrrole hybrid material as a highly active catalyst support for formic acid electro-oxidation Nanoscale 3 2011 3277 3284
3. Z.M. Cui, P.J. Kulesza, C.M. Li, W. Xing, and S.P. Jiang Pd nanoparticles supported on HPMo-PDDA-MWCNT and their activity for formic acid oxidation reaction of fuel cells Int J Hydrogen Energy 36 2011 8508 8517
4. T. Jin, S.J. Guo, J.L. Zuo, and S.H. Sun Synthesis and assembly of Pd nanoparticles on graphene for enhanced electrooxidation of formic acid Nanoscale 5 2013 160 163
5. J.L. Haan, K.M. Stafford, and R.I. Masel Effects of the addition of antimony, tin, and lead to palladium catalyst formulations for the direct formic acid fuel cell J Phys Chem C 114 2010 11665 11672
6. H.Y. Qin, Y.B. Jia, Y. Jiang, D.F. Niu, X.S. Zhang, and X.G. Zhou et al. Controllable synthesis of carbon nanofiber supported Pd catalyst for formic acid electrooxidation Int J Hydrogen Energy 37 2012 7373 7377
7. S.M. Baik, J.H. Han, J.S. Kim, and Y.C. Kwon Effect of deactivation and reactivation of palladium anode catalyst on performance of direct formic acid fuel cell (DFAFC) Int J Hydrogen Energy 36 2011 14719 14724
8. X. Wang, Y.W. Tang, Y. Gao, and T.H. Lu Carbon-supported Pd-Ir catalyst as anodic catalyst in direct formic acid fuel cell J Power Sources 175 2008 784 788
9. S. Sharma, and B.G. Pollet Support materials for PEMFC and DMFC electrocatalysts - a review J Power Sources 208 2012 96 119
10. x/C catalyst for the electrooxidation of formic acid Chem Commun 48 2012 419 421
11. R.D. Morgan, A. Salehi-khojin, and R.I. Masel Superior formic acid oxidation using carbon nanotube-supported palladium catalysts J Phys Chem C 115 2011 19413 19418
12. 2/CNTs for methanol electro-oxidation Electrochim Acta 66 2012 1 6
13. 2/carbon nanotube nanocomposites: an efficient electrocatalyst for direct methanol fuel cells Langmuir 26 2010 12383 12389
14. 2 nanotubes catalyst for methanol electro-oxidation Appl Catal B Environ 106 2011 609 615
15. 2-TiC catalyst with high durability for PEMFCs application Appl Catal B Environ 123-124 2012 214 220
16. 2 catalyst with improved performance for methanol electrooxidation by β-cyclodextrin carbonization Adv Mater 23 2011 3100 3104
17. 2/C catalysts with improved nanomorphology and their effect on methanol electrooxidation reaction J Phys Chem C 114 2010 21833 21839
18. 3/C catalyst as anodic catalyst for direct formic acid fuel cell J Power Sources 196 2011 2469 2474
19. 3 as methanol oxidation catalysts for fuel cells J Phys Chem B 109 2005 22958 22966
20. J. Rajeswari, B. Viswanathan, and T.K. Varadarajan Tungsten trioxide nanorods as supports for platinum in methanol oxidation Mater Chem Phys 106 2007 168 174
21. 3-C catalyst synthesized by microwave assisted polyol process for electrooxidation of formic acid RSC Adv 2 2012 344 350
22. 3 with ultrahigh stability for high-temperature proton exchange membrane fuel cells Nanoscale 4 2012 7411 7418
23. 2OH in acid medium Catal Today 160 2011 28 38
24. D.J. Guo Electrooxidation of ethanol on novel multi-walled carbon nanotube supported platinum-antimony tin oxide nanoparticle catalysts J Power Sources 196 2011 679 682
25. G. Korotcenkov, and S.D. Han (Cu, Fe, Co, or Ni)-doped tin dioxide films deposited by spray pyrolysis: doping influence on thermal stability of the film structure Mater Chem Phys 113 2009 756 763
26. 2-supported Pt catalysts and their electrocatalytic properties for methanol oxidation J Colloid Interface Sci 319 2008 193 198
27. 2 nanoparticles for direct alcohol fuel cells J Catal 258 2008 143 152
28. N.C. Chen, H.F. Lv, W. Wang, S.C. Mu, M. Pan, and F. Marken An ambient aqueous synthesis for highly dispersed and active Pd/C catalyst for formic acid electro-oxidation J Power Sources 195 2010 7246 7249
29. 2 nanocolloids with improved reversible lithium storage properties Chem Mater 21 2009 2868 2874
30. J. Zhang, and L. Gao Synthesis of antimony-doped tin oxide (ATO) nanoparticles by the nitrate-citrate combustion method Mater Res Bull 39 2004 2249 2255
31. 2 microspheres and their application to lithium-ion battery anode Electrochim Acta 54 2009 3510 3515
32. C. Pan, Y. Li, and Y. Ma Platinum-antimony doped tin oxide nanoparticles supported on carbon black as anode catalysts for direct methanol fuel cells J Power Sources 196 2011 6228 6231
33. 2 as a highly efficient catalyst for formic acid electrooxidation Electrochim Acta 56 2011 1646 1651
34. Z.B. Wang, G.P. Yin, Y.Y. Shao, B.Q. Yang, P.F. Shi, and P.X. Feng Electrochemical impedance studies on carbon supported PtRuNi and PtRu anode catalysts in acid medium for direct methanol fuel cell J Power Sources 165 2007 9 15
35. I.M. Hsing, X. Wang, and Y.J. Leng Electrochemical impedance studies of methanol electro-oxidation on Pt/C thin film electrode J Electrochem Soc 149 2002 A615 A621
36. 2 nanospheres supported Pd catalyst with enhanced performance for formic acid oxidation J Power Sources 215 2012 48 52
37. J.S. Ye, X. Liu, H.F. Cui, W.D. Zhang, F.S. Sheu, and T.M. Lim Electrochemical oxidation of multi-walled carbon nanotubes and its application to electrochemical double layer capacitors Electrochem Commun 7 2005 249 255
38. J.J. Wang, G.P. Yin, Y.Y. Shao, Z.B. Wang, and Y.Z. Gao Electrochemical durability investigation of single-walled and multi-walled carbon nanotubes under potentiostatic conditions J Power Sources 176 2008 128 131
39. K.H. Kangasniemi, D.A. Condit, and T.D. Jarvi Characterization of vulcan electrochemically oxidized under simulated PEM fuel cell conditions J Electrochem Soc 151 2004 E125 E132