Galvanic deposition and electrocatalytic oxygen reduction of standing Pt/AgCl-coated Ag nanosheets

Journal of Solid State Electrochemistry

Volumn 19, Issue 3, 2015, Pages 663-670

  Yang, Chia Chen ^a   Chen, Ho Rei ^a   Lee, Chien Liang ^a  

^a NATIONAL KAOHSIUNG UNIVERSITY OF APPLIED SCIENCES   (Taiwan)

Author keywords

[No Author keywords available]

Indexed keywords

CATALYSTS; CHLORINE COMPOUNDS; ELECTROLYTES; ELECTROLYTIC REDUCTION; NANOSHEETS; OXYGEN; OXYGEN REDUCTION REACTION; PLATINUM; SILVER HALIDES; SODIUM HYDROXIDE;

ELECTROCATALYTIC OXYGEN REDUCTION; GALVANIC DEPOSITION; GALVANIC DISPLACEMENT; NANOSHEET ARRAYS; NAOH ELECTROLYTE; POLYCRYSTALLINE LAYERS; SACRIFICIAL SUBSTRATES; TIME-DEPENDENT PROPERTIES;

SILVER;

EID: 84925506577     PISSN: 14328488     EISSN: 14330768     Source Type: Journal    
DOI: 10.1007/s10008-014-2648-z     Document Type: Article

References (40)

1. McLean GF, Niet T, Prince-Richard S, Djilali N (2002) An assessment of alkaline fuel cell technology. Int J Hydrogen Energy 27:507–26
2. Spendelow JS, Wieckowski A (2007) Electrocatalysis of oxygen reduction and small alcohol oxidation in alkaline media. Phys Chem Chem Phys 9:2654–75
3. Gewirth AA, Thorum MS (2010) Electroreduction of dioxygen for fuel-cell applications: materials and challenges. Inorg Chem 49:3557–66
4. 2 reduction reaction on platinum in alkaline solutions. J Phys Chem C 111:404–10
5. Zhang JL, Vukmirovic MB, Xu Y, Mavrikakis M, Adzic RR (2005) Controlling the catalytic activity of platinum-monolayer electrocatalysts for oxygen reduction with different substrates. Angew Chem Int Ed 44:2132–5
6. Oezaslan M, Hasche F, Strasser P (2012) PtCu3, PtCu and Pt3Cu alloy nanoparticle electrocatalysts for oxygen reduction reaction in alkaline and acidic media. J Electrochem Soc 159:B444–B54
7. Zhang K, Yue QL, Chen GF, Zhai YL, Wang L, Wang HS et al (2011) Effects of acid treatment of Pt-Ni alloy nanoparticles@graphene on the kinetics of the oxygen reduction reaction in acidic and alkaline solutions. J Phys Chem C 115:379–89
8. Hibino T, Kobayashi K (2013) Intermediate-temperature alkaline fuel cells with non-platinum electrodes. J Mater Chem A 1:7019–22
9. Lee CL, Tsai YL, Huang CH, Huang KL (2013) Performance of silver nanocubes based on electrochemical surface area for catalyzing oxygen reduction reaction. Electrochem Commun 29:37–40
10. Lee CL, Chiou HP, Syu CM, Wu CC (2010) Silver triangular nanoplates as electrocatalyst for oxygen reduction reaction. Electrochem Commun 12:1609–13
11. Feng YY, Zhang GR, Ma JH, Liu G, Xu BQ (2011) Carbon-supported Pt^Ag nanostructures as cathode catalysts for oxygen reduction reaction. Phys Chem Chem Phys 13:3863–72
12. Lima FHB, Sanches CD, Ticianelli EA (2005) Physical characterization and electrochemical activity of bimetallic platinum-silver particles for oxygen reduction in alkaline electrolyte. J Electrochem Soc 152:A1466–A73
13. Nagaiah TC, Maljusch A, Chen XX, Bron M, Schuhmann W (2009) Visualization of the local catalytic activity of electrodeposited Pt-Ag catalysts for oxygen reduction by means of SECM. ChemPhysChem 10:2711–8
14. Paunovic M, Schlesinger M (2006) Fundamentals of electrochemical deposition, 2nd edn. Wiley-Interscience, USA
15. Khosravi M, Amini MK (2010) Carbon paper supported Pt/Au catalysts prepared via Cu underpotential deposition-redox replacement and investigation of their electrocatalytic activity for methanol oxidation and oxygen reduction reactions. Int J Hydrogen Energy 35:10527–38
16. Liao MJ, Wei ZD, Chen SG, Li L, Ji MB, Wang YQ (2010) Ultra low Pt-loading electrode prepared by displacement of electrodeposited Cu particles on a porous carbon electrode. Int J Hydrogen Energy 35:8071–9
17. Slawinski GW, Zamborini FP (2007) Synthesis and alignment of silver nanorods and nanowires and the formation of pt, pd, and core/shell structures by galvanic exchange directly on surfaces. Langmuir 23:10357–65
18. He W, Wu X, Liu J, Zhang K, Chu W, Feng L et al (2010) Formation of AgPt alloy nanoislands via chemical etching with tunable optical and catalytic properties. Langmuir 26:4443–8
19. Bi YP, Ye JH (2010) Heteroepitaxial growth of platinum nanocrystals on AgCl nanotubes via galvanic replacement reaction. Chem Commun 46:1532–4
20. Lee CL, Syu CC (2011) Electrochemical growth and oxygen reduction property of Ag nanosheet arrays on a Ti/TiO2 electrode. Int J Hydrogen Energy 36:15068–74
21. Kim MR, Lee DK, Jang D-J (2012) Facile fabrication of hollow Pt/Ag nanocomposites having enhanced catalytic properties. Appl Catal B 103:253–60
22. Chen JY, Wiley B, McLellan J, Xiong YJ, Li ZY, Xia YN (2005) Optical properties of Pd-Ag and Pt-Ag nanoboxes synthesized via galvanic replacement reactions. Nano Lett 5:2058–62
23. Basu D, Basu S (2010) Performance studies of Pd–Pt and Pt–Pd–Au catalyst for electro-oxidation of glucose in direct glucose fuel cell. Int J Hydrogen Energy 37:4678–84
24. Zhang WQ, Yang JZ, Lu XM (2012) Tailoring galvanic replacement reaction for the preparation of Pt/Ag bimetallic hollow nanostructures with controlled number of voids. ACS Nano 6:7397–405
25. Jiang L, Hsu A, Chu D, Chen R (2009) Oxygen reduction reaction on carbon supported Pt and Pd in alkaline solutions. J Electrochem Soc 156:B370–B6
26. Jiang L, Hsu A, Chu D, Chen R (2010) A highly active Pd coated Ag electrocatalyst for oxygen reduction reactions in alkaline media. Electrochim Acta 55:4506–11
27. Peng JJ, Deng Y, Wang DH, Jin XB, Chen GZ (2009) Cyclic voltammetry of electroactive and insulative compounds in solid state: a revisit of AgCl in aqueous solutions assisted by metallic cavity electrode and chemically modified electrode. J Electroanal Chem 627:28–40
28. Hsieh CT, Pan C, Chen WY (2011) Synthesis of silver nanoparticles on carbon papers for electrochemical catalysts. J Power Sources 196:6055–61
29. Lee C-L, Yang H-L, Chen C-W, Tsai Y-L (2013) Silver nanoplates: tetradecyltrimethylammonium ions as additives in seed-growth synthesis and their potential application as catalysts for glucose oxidation reaction. Electrochim Acta 106:411–7
30. Quan H, Park S-U, Park J (2010) Electrochemical oxidation of glucose on silver nanoparticle-modified composite electrodes. Electrochim Acta 55:2232–7
31. DeMott JM, Jahngen EGE (2005) Determination of amino acids at a silver oxide/silver phosphate electrode and the analysis of structure-response relationships. Electroanal 17:599–606
32. Peng ZM, Wu JB, Yang H (2010) Synthesis and oxygen reduction electrocatalytic property of platinum hollow and platinum-on-silver nanoparticles. Chem Mater 22:1098–106
33. Wu R, Zhang YP, Hong RJ, Lai SQ, Ye C, Hu JQ (2012) One-pot synthesis and its surprisingly electrocatalytic property of mesoporous Pt/AgCl nanocubes with honeycomb shape. Mater Lett 89:236–9
34. Lee CL, Chao YJ, Chen CH, Chiou HP, Syu CC (2011) Graphite-nanofiber-supported porous Pt-Ag nanosponges: synthesis and oxygen reduction electrocatalysis. Int J Hydrogen Energy 36:15045–51
35. Markovic NM, Schmidt TJ, Stamenkovic V, Ross PN (2001) Oxygen reduction reaction on Pt and Pt bimetallic surfaces: a selective review. Fuel Cells 1:105–16
36. Tammeveski K, Tenno T, Claret J, Ferrater C (1997) Electrochemical reduction of oxygen on thin-film Pt electrodes in 0.1 M KOH. Electrochim Acta 42:893–7
37. Masa J, Batchelor-McAuley C, Schuhmann W, Compton RG (2013) Koutecky-Levich analysis applied to nanoparticle modified rotating disk electrodes: electrocatalysis or misinterpretation ? Nano Res 2013:1–8
38. Elezovic NR, Babic BM, Gajic-Krstajic L, Ercius P, Radmilovic VR, Krstajic NV, Vracar LM (2012) Pt supported on nano-tungsten carbide as a beneficial catalyst for the oxygen reduction reaction in alkaline solution. Electrochim Acta 69:239–46
39. Dimos MM, Blanchard GJ (2010) Evaluating the role of Pt and Pd catalyst morphology on electrocatalytic methanol and ethanol oxidation. J Phys Chem C 114:6019–26
40. Mayrhofer KJJ, Strmcnik D, Blizanac BB, Stamenkovic V, Arenz M, Markovic NM (2008) Measurement of oxygen reduction activities via the rotating disc electrode method: from Pt model surfaces to carbon-supported high surface area catalysts. Electrochim Acta 53:3181–8