Low-platinum-content electrocatalysts for methanol and ethanol electrooxidation

Lecture Notes in Energy

Volumn 9, Issue , 2013, Pages 1-25

  Li, Meng ^a   Adzic, Radoslav R ^a  

^a BROOKHAVEN NATIONAL LABORATORY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CHEMICAL ENERGY; ELECTRICAL ENERGY; ETHANOL ELECTRO-OXIDATION; HIGH ENERGY DENSITIES; OXIDATION OF METHANOL; RECENT PROGRESS; RENEWABLE SOURCES; RESEARCH EFFORTS;

CATALYSIS; ELECTROCATALYSIS; ELECTROCATALYSTS; ELECTROOXIDATION; ETHANOL; FUEL CELLS; METHANOL;

PLATINUM;

EID: 84882979550     PISSN: 21951284     EISSN: 21951292     Source Type: Book Series    
DOI: 10.1007/978-1-4471-4911-8_1     Document Type: Article

References (120)

1. Gosselink JW (2002) Pathways to a more sustainable production of energy: sustainable hydrogen-a research objective for Shell. Int J Hydrogen Energ 27:1125-1129
2. Aricò AS, Baglio V, Antonucci V (2009) Direct methanol fuel cells: history, status and perspectives. In: Liu H, Zhang J (eds) Electrocatalysis of direct methanol fuel cells. Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim
3. Lamy C, Leger J-M, Srinivasan S (2001) Direct methanol fuel cells-from a 20th century electrochemist's dream to a 21st century emerging technology. In: Bockris JO'M (ed) Modern aspects of electrochemistry. Plenum, New York, NY
4. Lamy C, Coutanceau C, Leger J-M (2009) The direct ethanol fuel cell: a challenge to convert bioethanol cleanly into electric energy. In: Barbaro P, Bianchini C (eds) Catalysis for sustainable energy production. Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim
5. Batista EA, Hoster H, Iwasita T (2003) Analysis of FTIRS data and thermal effects during methanol oxidation on UHV-cleaned PtRu alloys. J Electroanal Chem 554-555:265-271
6. Camara GA, Iwasita T (2005) Parallel pathways of ethanol oxidation: the effect of ethanol concentration. J Electroanal Chem 578:315-321
7. Wasmus S, Kuver A (1999) Methanol oxidation and direct methanol fuel cells: a selective review. J Electroanal Chem 461:14-31
8. Iwasita T (2002) Electrocatalysis of methanol oxidation. Electrochim Acta 47:3663-3674
9. Batista EA, Malpass GRP, Motheo AJ, Iwasita T (2004) New mechanistic aspects of methanol oxidation. J Electroanal Chem 571:273-282
10. Vigier F, Rousseau S, Coutanceau C, Leger J-M, Lamy C (2006) Electrocatalysis for the direct alcohol fuel cell. Top Catal 40(1-4):111-121
11. Lamy C, Belgsir EE, Leger J-M (2001) Electrocatalytic oxidation of aliphatic alcohols: application to the direct alcohol fuel cell (DAFC). J Appl Electrochem 31:799-809
12. Jusys Z, Kaiser J, Behm RJ (2003) Methanol electrooxidation over Pt/C fuel cell catalysts: dependence of product yields on catalyst loading. Langmuir 19:6759-6769
13. Wang H, Jusys Z, Behm RJ (2004) Ethanol electrooxidation on a carbon-supported Pt catalyst: reaction kinetics and product yields. J Phys Chem B 108:19413-19424
14. Shao MH, Adzic RR (2005) Electrooxidation of ethanol on a Pt electrode in acid solutions: in situ ATR-SEIRAS study. Electrochim Acta 50:2415-2422
15. Adzic RR, Tripkovic AV, O'Grady WE (1982) Structural effects in electrocatalysis. Nature 296:10-11
16. Xia XH, Iwasita T, Ge F, Vielstich W (1996) Structural effects and reactivity in methanol oxidation on polycrystalline and single crystal platinum. Electrochim Acta 41:711-718
17. Xia XH, Liess H-D, Iwasita T (1997) Early stages in the oxidation of ethanol at low-index single crystal platinum electrodes. J Electroanal Chem 437:233-240
18. Lamy C, Leger J-M, Clavilier J, Parsons R (1983) Structural effects in electrocatalysis: a comparative study of the oxidation of CO, HCOOH, and CH3OH on single crystal Pt electrodes. J Electroanal Chem 150:71-77
19. Morin M-C, Lamy C, Leger J-M, Vasquez J-L, Aldaz A (1990) Structural effects in electrocatalysis: oxidation of ethanol on platinum single crystal electrodes. Effect of pH. J Electroanal Chem 283:287-302
20. Chang S-C, Leung L-W H, Weaver MJ (1990) Metal crystallinity effects in electrocatalysis as probed by real-time FTIR spectroscopy: electrooxidation of formic acid, methanol, and ethanol on ordered low-index platinum surfaces. J Phys Chem 94:6013-6021
21. Colmati F, Tremiliosi-Filho G, Gonzalez ER, Berna A, Herrero E, Feliu JM (2008) Surface structure effects on the electrochemical oxidation of ethanol on platinum single crystal electrodes. Faraday Discuss 140:379-397
22. Lai SCS, Lebedeva NP, Housmans THM, Koper MTM (2007) Mechanisms of carbon monoxide and methanol oxidation at single-crystal electrodes. Top Catal 46:320-333
23. Housmans THM, Koper MTM (2003) Methanol oxidation on stepped Pt[n(111) (110)] electrodes: a chronoamperometric study. J Phys Chem B 107:8557-8567
24. Lai SCS, Koper MTM (2008) Electro-oxidation of ethanol and acetaldehyde on platinum single-crystal electrodes. Faraday Discuss 140:399-416
25. Tripkovic AV, Popovic KD (1996) Oxidation of methanol on platinum single crystal stepped electrodes from [110] zone in acid solution. Electrochim Acta 41(15):2385-2394
26. Colmati F, Tremiliosi-Filho G, Gonzalez ER, Berna A, Herrero E, Feliu JM (2009) The role of the steps in the cleavage of the C-C bond during ethanol oxidation on platinum electrodes. Phys Chem Chem Phys 11:9114-9123
27. Shin J, Tornquist WJ, Korzeniewski C, Hoaglund CS (1996) Elementary steps in the oxidation and dissociative chemisorptions of ethanol on smooth and stepped surface planes of platinum electrodes. Surf Sci 364:122-130
28. Tarnowski DJ, Korzeniewski C (1997) Effects of surface step density on the electrochemical oxidation of ethanol to acetic acid. J Phys Chem B 101:253-258
29. Park S, Xie Y, Weaver MJ (2002) Electrocatalytic pathways on carbon-supported platinum nanoparticles: comparison of particle-size-dependent rates of methanol, formic acid, and formaldehyde electrooxidation. Langmuir 18(15):5792-5798
30. Arenz M, Mayrhofer KJJ, Stamenkovic V, Blizanac BB, Tomoyuki T, Ross PN, Markovic NM (2005) The effect of the particle size on the kinetics of CO electrooxidation on high surface area Pt catalysts. J Am Chem Soc 127(18):6819-6829
31. Maillard F, Savinova ER, Stimming U (2007) CO monolayer oxidation on Pt nanoparticles: further insights into the particle size effects. J Electroanal Chem 599(2):221-232
32. Tian N, Zhou Z-Y, Sun S-G, Ding Y, Wang ZL (2007) Synthesis of tetrahexahedral platinum nanocrystals with high-index facets and high electro-oxidation activity. Science 316:732-735
33. Zhou ZY, Huang Z-Z, Chen D-J, Wang Q, Tian N, Sun S-G (2010) High-index faceted platinum nanocrystals supported on carbon black as highly efficient catalysts for ethanol electrooxidation. Angew Chem Int Ed 49(2):411-414
34. Zhou W-P, Li M, Koenigsmann C, Ma C, Wong SS, Adzic RR (2011) Morphologydependent activity of Pt nanocatalysts for ethanol oxidation in acidic media: nanowires versus nanoparticles. Electrochim Acta 56(27):9824-9830
35. Liu H, Song C, Zhang L, Zhang J, Wang H, Wilkinson DP (2006) A review of anode catalysis in the direct methanol fuel cell. J Power Sources 155(2):95-110
36. Antolini E (2007) Catalysts for direct ethanol fuel cells. J Power Sources 170:1-12
37. Watanabe M, Motoo S (1975) Electrocatalysis by ad-atoms: Part II Enhancement of the oxidation of methanol on platinum by ruthenium ad-atoms. J Electroanal Chem 60: 267-273
38. Van Veen JAR, Frelink T, Visscher W (1995) On the role of Ru and Sn as promotors of methanol electro-oxidation over Pt. Surf Sci 335:353-360
39. Del Colle V, Berna A, Tremiliosi-Filho G, Herrero E, Feliu JM (2008) Ethanol electrooxidation onto stepped surfaces modified by Ru deposition: electrochemical and spectroscopic studies. Phys Chem Chem Phys 10:3766-3773
40. Souza-Garcia J, Herrero E, Feliu JM (2010) Breaking the C-C bond in the ethanol oxidation reaction on platinum electrodes: effect of steps and ruthenium adatoms. ChemPhysChem 11: 1391-1394
41. Wang H, Baltruschat H (2007) DEMS study on methanol oxidation at poly-and monocrystalline platinum electrodes: the effect of anion, temperature, surface structure, Ru adatom, and potential. J Phys Chem C 111(19):7038-7048
42. Campbell SA, Parsons R (1992) Effect of Bi and Sn adatoms on formic acid and methanol oxidation at well defined platinum surfaces. J Chem Soc Faraday Trans 88:833-841
43. Janssen MMP, Moolhuysen J (1976) Binary systems of platinum and a second metal as oxidation catalysts for methanol fuel cells. Electrochim Acta 21(11):869-878
44. Kokkinidis G (1986) Underpotential deposition and electrocatalysis. J Electroanal Chem Interfacial Electrochem 201(2):217-236
45. Bittins-Cattaneo B, Iwasita T (1987) Electrocatalysis of methanol oxidation by adsorbed tin on platinum. J Electroanal Chem Interfacial Electrochem 238(1-2):151-161
46. Iwasita T, Hoster H, John-Anacker A, Lin WF, Vielstich W (2000) Methanol oxidation on PtRu electrodes: influence of surface structure and Pt Ru atom distribution. Langmuir 16(2):522-529
47. Hoster H, Iwasita T, Baumgärtner H, Vielstich W (2001) Pt-Ru model catalysts for anodic methanol oxidation: influence of structure and composition on the reactivity. Phys Chem Chem Phys 3:337-346
48. Camara GA, Lima RBD, Iwasita T (2004) Catalysis of ethanol electrooxidation by PtRu: the influence of catalyst composition. Electrochem Commun 6(8):812-815
49. Tsai M-C, Yeh T-K, Tsai C-H (2006) An improved electrodeposition technique for preparing platinum and platinum-ruthenium nanoparticles on carbon nanotubes directly grown on carbon cloth for methanol oxidation. Electrochem Commun 8(9):1445-1452
50. Radmilovic V, Gasteiger HA, Ross PN (1995) Structure and chemical composition of a supported Pt-Ru electrocatalyst for methanol oxidation. J Catal 154(1):98-106
51. Yang B, Lu Q, Wang Y, Zhang L, Lu J, Liu P (2003) Simple and low-cost preparation method for highly dispersed PtRu/C catalysts. Chem Mater 15:3552-3557
52. Guo JW, Zhao TS, Prabhuram J, Chen R, Wong CW (2005) Preparation and characterization of a PtRu/C nanocatalyst for direct methanol fuel cells. Electrochim Acta 51:754-763
53. Bonnemann H, Brinkmann R, Kinge S, Ely TO, Armand M (2004) Chloride free Pt-and PtRu-nanoparticles stabilised by "Armand's ligand" as precursors for fuel cell catalysts. Fuel Cells 4:289-296
54. Park KC, Jang IY, Wongwiriyapan W, Morimoto S, Kim YJ, Jung YC, Toya T, Endo M (2010) Carbon-supported Pt-Ru nanoparticles prepared in glyoxylate-reduction system promoting precursor-support interaction. J Mater Chem 20:5345-5354
55. Liu Y, Qiu X, Chen Z, Zhu W (2002) A new supported catalyst for methanol oxidation prepared by a reverse micelles method. Electrochem Commun 4:550-553
56. Solla-Gullon J, Vidal-Iglesias FJ, Montiel V, Aldaz A (2004) Electrochemical characterization of platinum-ruthenium nanoparticles prepared by water-in-oil microemulsion. Electrochim Acta 49:5079-5088
57. Xiong L, Manthiram A (2005) Catalytic activity of Pt-Ru alloys synthesized by a microemulsion method in direct methanol fuel cells. Solid State Ionics 176:385-392
58. DinhHN, Ren X, Garzon FH, Zelenay P, Gottesfeld S (2000) Electrocatalysis in directmethanol fuel cells: in-situ probing of PtRu anode catalyst surfaces. J Electroanal Chem 491:222-233
59. Dubau L, Coutanceau C, Garnier E, Leger J-M, Lamy C (2003) Electrooxidation of methanol at platinum-ruthenium catalysts prepared from colloidal precursors: atomic composition and temperature effects. J Appl Electrochem 33:419-429
60. Rolison DR, Hagans PL, Swider KE, Long JW (1999) Role of hydrous ruthenium oxide in Pt Ru direct methanol fuel cell anode electrocatalysts: the importance of mixed electron/ proton conductivity. Langmuir 15(3):774-779
61. Gurau B, Viswanathan R, Liu R, Lafrenz TJ, Ley KL, Smotkin ES, Reddington E, Sapienza A, Chan BC, Mallouk TE, Sarangapani S (1998) Structural and electrochemical characterization of binary, ternary, and quaternary platinum alloy catalysts for methanol electro-oxidation. J Phys Chem B 102:9997-10003
62. Morimoto Y, Yeager EB (1998) Comparison of methanol oxidations on Pt, PtRu and PtSn electrodes. J Electroanal Chem 444:95-100
63. Long JW, Stroud RM, Swider-Lyons KE, Rolison DR (2000) How to make electrocatalysts more active for direct methanol oxidation-avoid PtRu bimetallic alloys! J Phys Chem B 104:9772-9776
64. Cao L, Scheiba F, Roth C, Schweiger F, Cremers C, Stimming U, Fuess H, Chen L, Zhu W, Qiu X (2006) Novel nanocomposite Pt/RuO2xH2O/carbon nanotube catalysts for direct methanol fuel cells. Angew Chem Int Ed 45:5315-5319
65. Suffredinia HB, Tricolib V, Avacaa LA, Vatistasb N (2004) Sol-gel method to prepare active Pt-RuO2 coatings on carbon powder for methanol oxidation. Electrochem Commun 6(10):1025-1028
66. Chrzanowski W, Wieckowski A (1997) Ultrathin films of ruthenium on low index platinum single crystal surfaces: an electrochemical study. Langmuir 13:5974-5978
67. Suffredini HB, Tricoli V, Vatistas N, Avaca LA (2006) Electro-oxidation of methanol and ethanol using a Pt-RuO2/C composite prepared by the sol-gel technique and supported on boron-doped diamond. J Power Sources 158(1):124-128
68. Jiang L, Colmenaresa L, Jusysa Z, Sunb GQ, Behma RJ (2007) Ethanol electrooxidation on novel carbon supported Pt/SnOx/C catalysts with varied Pt:Sn ratio. Electrochim Acta 53: 377-389
69. Zhou WP, Axnanda S, White MG, Adzic RR, Hrbek J (2011) Enhancement in ethanol electrooxidation by SnOx nanoislands grown on Pt(111): effect of metal oxide-metal interface sites. J Phys Chem C 115:16467-16473
70. Casado-Rivera E, Volpe DJ, Alden L, Lind C, Downie C, Vázquez-Alvarez T, Angelo ACD, DiSalvo FJ, Abruna HD (2003) Electrocatalytic activity of ordered intermetallic phases for fuel cell applications. J Am Chem Soc 126:4043-4049
71. Guo S, Dong S, Wang E (2010) Three-dimensional Pt-on-Pd bimetallic nanodendrites supported on graphene nanosheet: facile synthesis and used as an advanced nanoelectrocatalyst for methanol oxidation. ACS Nano 4(1):L547-555
72. Guo S, Fang Y, Dong S, Wang E (2007) High-efficiency and low-cost hybrid nanomaterial as enhancing electrocatalyst: spongelike Au/Pt core/shell nanomaterial with hollow cavity. J Phys Chem C 111(45):17104-17109
73. Wang H, Xu C, Cheng F, Zhang M, Wang S, Jiang SP (2008) Pd/Pt core-shell nanowire arrays as highly effective electrocatalysts for methanol electrooxidation in direct methanol fuel cells. Electrochem Commun 10(10):1575-1578
74. Zeng J, Yang J, Lee JY, Zhou W (2006) Preparation of carbon-supported core-shell Au-Pt nanoparticles for methanol oxidation reaction: the promotional effect of the Au core. J Phys Chem B 110:24606-24611
75. Chrzanowski W, Kim H, Wieckowski A (1998) Enhancement in methanol oxidation by spontaneously deposited ruthenium on low-index platinum electrodes. Catal Lett 50:69-75
76. Chen CH, Sarma LS, Wang DY, Lai FJ, Al Andra CC, Chang SH, Liu DG, Chen CC, Lee JF, Hwang BJ (2010) Platinum-decorated ruthenium nanoparticles for enhanced methanol electrooxidation. ChemCatChem 2:159-166
77. Sasaki K, Adzic RR (2008) Monolayer-level Ru-and NbO2-supported platinum electrocatalysts for methanol oxidation. J Electrochem Soc 105:B180-B186
78. Dong L, Gari RRS, Li Z, Craig MM, Hou S (2010) Graphene-supported platinum and platinum-ruthenium nanoparticles with high electrocatalytic activity for methanol and ethanol oxidation. Carbon 48(3):781-787
79. Fujiwara N, Friedrich KA, Stimming U (1999) Ethanol oxidation on PtRu electrodes studied by differential electrochemical mass spectrometry. J Electroanal Chem 472(2):120-125
80. Tanaka S, Umeda M, Ojima H, Usui Y, Kimura O, Uchida I (2005) Preparation and evaluation of a multi-component catalyst by using a co-sputtering system for anodic oxidation of ethanol. J Power Sources 152:34-39
81. Wang Z, Yin G, Zhang J, Sun Y, Shi P (2006) Co-catalytic effect of Ni in the methanol electro-oxidation on Pt-Ru/C catalyst for direct methanol fuel cell. Electrochim Acta 51: 5691-5697
82. Park KW, Choi JH, Kwon BK, Lee SA, Sung YE, Ha HY, Hong SA, Kim HS, Wieckowski A (2002) Chemical and electronic effects of Ni in Pt/Ni and Pt/Ru/Ni alloy nanoparticles in methanol electrooxidation. J Phys Chem B 106:1869-1877
83. Oliveira Neto A, Franco EG, Arico E, Linardi M, Gonzalez ER (2003) Electro-oxidation of methanol and ethanol on Pt-Ru/C and Pt-Ru-Mo/C electrocatalysts prepared by Bönnemann's method. J Eur Ceram Soc 23:2987-2992
84. Li G, Pickup PG (2006) The promoting effect of Pb on carbon supported Pt and Pt/Ru catalysts for electro-oxidation of ethanol. Electrochim Acta 52:1033-1037
85. Calegaro ML, Suffredini HB, Machado SAS, Avaca LA (2006) Preparation, characterization and utilization of a new electrocatalyst for ethanol oxidation obtained by the sol-gel method. J Power Sources 156:300-305
86. Stamenkovic VR, Arenz M, Lucas CA, Gallagher ME, Ross PN, Markovic NM (2003) Surface chemistry on bimetallic alloy surfaces: adsorption of anions and oxidation of CO on Pt3Sn(111). J Am Chem Soc 125:2735-2745
87. Wang K, Gasteiger HA, Markovic NM, Ross PN (1996) On the reaction pathway for methanol and carbon monoxide electrooxidation on Pt-Sn alloy versus alloy surfaces. Electrochim Acta 41:2587-2593
88. MacDonald JP, Gualtieri B, Runga N, Teliz E, Zinola CF (2008) Modification of platinum surfaces by spontaneous deposition: methanol oxidation electrocatalysis. Int J Hydrogen Energ 33:7048-7061
89. Zhou WJ, Zhou B, Li WZ, Zhou ZH, Song SQ, Sun GQ, Xin Q, Douvartzides S, Goula M, Tsiakaras P (2004) Performance comparison of low-temperature direct alcohol fuel cells with different anode catalysts. J Power Sources 126:16-22
90. Wang Q, Sun GQ, Jiang LH, Xin Q, Sun SG, Jiang YX, Chen SP, Jusys Z, Behm RJ (2007) Adsorption and oxidation of ethanol on colloid-based Pt/C, PtRu/C and Pt3Sn/C catalysts: in situ FTIR spectroscopy and on-line DEMS studies. Phys Chem Chem Phys 9:2686-2696
91. Colmati F, Antolini E, Gonzalez ER (2006) Effect of temperature on the mechanism of ethanol oxidation on carbon supported Pt, PtRu and Pt3Sn electrocatalysts. J Power Sources 157:98-103
92. Song SQ, Zhou WJ, Zhou ZH, Jiang LH, Sun GQ, Tsiakaras P, Xin Q, Leonditis V, Kontou S, Tsiakaras P (2005) Direct ethanol PEM fuel cells: the case of platinum based anodes. Int J Hydrogen Energ 30:995-1001
93. Jiang L, Sun G, Sun S, Liu J, Tang S, Li H, Zhou B, Xin Q (2005) Structure and chemical composition of supported Pt-Sn electrocatalysts for ethanol oxidation. Electrochim Acta 50: 5384-5389
94. Bonneman H, Britz P, Vogel W (1998) Structure and chemical composition of a surfactant stabilized Pt3Sn alloy colloid. Langmuir 14:6654-6657
95. Lamy C, Rousseau S, Belgsir EM, Coutanceau C, Léger JM (2004) Recent progress in the direct ethanol fuel cell: development of new platinum-tin electrocatalysts. Electrochim Acta 49:3901-3908
96. Zhou WJ, Li WZ, Song SQ, Zhou ZH, Jiang LH, Sun GQ, Xin Q, Poulianitis K, Kontou S, Tsiakaras P (2004) Bi-and tri-metallic Pt-based anode catalysts for direct ethanol fuel cells. J Power Sources 131(1-2):217-223
97. Antolini E, Colmatia F, Gonzalez ER (2007) Effect of Ru addition on the structural characteristics and the electrochemical activity for ethanol oxidation of carbon supported Pt-Sn alloy catalysts. Electrochem Commun 9:398-404
98. Sine G, Smida D, Limat M, Foti G, Comninellis C (2007) Microemulsion synthesized Pt/Ru/Sn nanoparticles on BDD for alcohol electro-oxidation. J ElectrochemSoc 154:B170-B174
99. Neto AO, Dias RR, Tusi MM, Linardi M, Spinace EV (2007) Electro-oxidation of methanol and ethanol using PtRu/C, PtSn/C and PtSnRu/C electrocatalysts prepared by an alcoholreduction process. J Power Sources 166:87-91
100. Ribeiro J, dos Anjos DM, Kokoh KB, Coutanceau C, Léger J-M, Olivi P, de Andrade AR, Tremiliosi-Filho G (2007) Carbon-supported ternary PtSnIr catalysts for direct ethanol fuel cell. Electrochim Acta 52(24):6997-7006
101. Koenigsmann C, Wong SS (2011) One-dimensional noble metal electrocatalysts: a promising structural paradigm for direct methanol fuel cells. Energy Environ Sci 4:1161-1176
102. Adzic RR, Zhang J, Sasaki K, Vukmirovic MB, Shao M, Wang JX, Nilekar AU, Mavrikakis M, Valerio JA, Uribe F (2007) Platinum monolayer fuel cell electrocatalysts. Top Catal 46:249-262
103. Brankovic SR, McBreen J, Adzic RR (2001) Spontaneous deposition of Pt on the Ru(0001) surface. J Electroanal Chem 503:99-104
104. Brankovic SR, Wang JX, Adzic RR (2001) Pt submonolayers on Ru nanoparticles a novel low Pt loading, high CO tolerance fuel cell electrocatalyst. Electrochem Solid-State Lett 4: A217-A220
105. Brankovic SR, Marinkovic NS, Wang JX, Adzic RR (2002) Carbon monoxide oxidation on bare and Pt-modified Ru(1010) and Ru(0001) single crystal electrodes. J Electroanal Chem 532:57-66
106. Brankovic SR, Wang JX, Adzic RR (2001) Newmethods of controlled monolayer-to-multilayer deposition of Pt for designing electrocatalysts at an atomic level. J Serb Chem Soc 66(11-12): 887-898
107. Wang JX, Brankovic SR, Zhu Y, Hanson JC, Adzic RR (2003) Kinetic characterization of PtRu fuel cell anode catalysts made by spontaneous Pt deposition on Ru nanoparticles. J Electrochem Soc 150:A1108-A1117
108. Li M, Liu P, Adzic RR (2012) Platinum monolayer electrocatalysts for anodic oxidation of alcohols. J Phys Chem Lett 3:3480-3485
109. Kowal A, Li M, Shao M, Sasaki K, Vukmirovic MB, Zhang J, Marinkovic NS, Liu P, Frenkel AI, Adzic RR (2009) Ternary Pt/Rh/SnO2 electrocatalysts for oxidizing ethanol to CO2. Nature Mater 8:325-330
110. Li M, Kowal A, Sasaki K, Marinkovic NS, Su D, Korach E, Liu P, Adzic RR (2010) Ethanol oxidation on the ternary Pt-Rh-SnO2/C electrocatalysts with varied Pt:Rh:Sn ratios. Electrochim Acta 55:4331-4338
111. Li M, Marinkovic NS, Sasaki K (2012) In situ characterization of ternary Pt-Rh-SnO2/C catalysts for ethanol electrooxidation. Electrocatal 3:376-385
112. Li M, Cullen D, Sasaki K, Marinkovic NS, More K, Adzic RR (2013) Ternary electrocatalysts for oxidizing ethanol to carbon dioxide: making Ir capable of splitting C-C bond. J Am Chem Soc 135:132-141
113. Kowal A, Gojković SL, Leed KS, Olszewski P, Sung Y-E (2009) Synthesis, characterization and electrocatalytic activity for ethanol oxidation of carbon supported Pt, Pt-Rh, Pt-SnO2 and Pt-Rh-SnO2 nanoclusters. Electrochem Commun 11(4):724-727
114. Du W, Wang Q, LaScala CA, Zhang L, Su D, Frenkel AI, Mathura VK, Teng X (2011) Ternary PtSnRh-SnO2 nanoclusters: synthesis and electroactivity for ethanol oxidation fuel cell reaction. J Mater Chem 21:8887-8892
115. Colmati F, Antolini E, Gonzalez ER (2008) Preparation, structural characterization and activity for ethanol oxidation of carbon supported ternary Pt-Sn-Rh catalysts. J Alloy Compd 456:264-270
116. de Tacconi NR, Lezna RO, Beden B, Hahn F, Lamy C (1994) In-situ FTIR study of the electrocatalytic oxidation of ethanol at iridium and rhodium electrodes. J Electroanal Chem 379:329-337
117. Cao L, Sun G, Li H, Xin Q (2007) Carbon-supported IrSn catalysts for a direct ethanol fuel cell. Electrochem Commun 9:2541-2546
118. Choi Y, Liu P (2011) Understanding of ethanol decomposition on Rh(111) from density functional theory and kinetic Monte Carlo simulations. Catal Today 165:64-70
119. Wang JX, Inada H, Wu L, Zhu Y, Choi Y-M, Liu P, Zhou W-P, Adzic RR (2009) Oxygen reduction on well-defined core-shell nanocatalysts: particle size, facet, and Pt shell thickness effects. J Am Chem Soc 131:17298-17302
120. Cai Y, Ma C, Zhu Y, Wang JX, Adzic RR (2011) Low-coordination sites in oxygen-reduction electrocatalysis: their roles and methods for removal. Langmuir 27:8540-8547