2003
DOI: 10.1021/cm011565c
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Synthesis and Characterization of Os and Pt−Os/Carbon Nanocomposites and their Relative Performance as Methanol Electrooxidation Catalysts

Abstract: Thermal treatment of cis-(2,2‘-bipyridine)2OsCl2, (η6-cymene)2Os2Cl4, or [(bpy)2Os(μ-bpm)PtCl2][CF3SO3]2/Vulcan carbon powder composites under solely reductive conditions affords Os or Pt−Os/carbon nanocomposites consisting of metal nanoparticles highly dispersed on the carbon support. Nanocomposites containing ca. 35−50 wt % metal with metal nanocrystals of ca. 5−6 nm average diameter are formed. Evaluation of the performance of these nanocomposites as methanol electrooxidation catalysts in direct methanol fu… Show more

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Cited by 36 publications
(32 citation statements)
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“…Therefore, the utility of a second metal that can act as a promoter by providing oxygenated species at lower potentials for oxidative removal of adsorbed CO has been investigated [67,68]. Subsequently, many binary and multimetallic Pt-based alloy compositions, such as Pt/Ru, Pt/Os, Pt/Sn, Pt/Mo, Pt/Ir, Pt/Ru/Sn/W and Pt/Ru/Sn, have been proposed for the purpose of improving the electrooxidation of CH 3 OH [67][68][69][70][71][72][73][74][75][76][77]. However, the use of Pt in combination with non-noble metals as an anodic catalyst material for CH 3 OH electro-oxidation poses two major limitations: (i) uncertainty over long-term stability; and (ii) uncertainty and time dependence of the available active surface area due to a leaching out effect.…”
Section: Electrode Kinetic Limitationsmentioning
confidence: 99%
“…Therefore, the utility of a second metal that can act as a promoter by providing oxygenated species at lower potentials for oxidative removal of adsorbed CO has been investigated [67,68]. Subsequently, many binary and multimetallic Pt-based alloy compositions, such as Pt/Ru, Pt/Os, Pt/Sn, Pt/Mo, Pt/Ir, Pt/Ru/Sn/W and Pt/Ru/Sn, have been proposed for the purpose of improving the electrooxidation of CH 3 OH [67][68][69][70][71][72][73][74][75][76][77]. However, the use of Pt in combination with non-noble metals as an anodic catalyst material for CH 3 OH electro-oxidation poses two major limitations: (i) uncertainty over long-term stability; and (ii) uncertainty and time dependence of the available active surface area due to a leaching out effect.…”
Section: Electrode Kinetic Limitationsmentioning
confidence: 99%
“…The fabrication and electrocatalytic properties of metal catalysts deposited on nanomaterials have been intensely investigated in recent years, motivated by the desire to improve the performance of fuel cells [1][2][3][4][5][6][7][8][9][10]. Among many possible combinations of metal catalyst and inert support, palladium (Pd) and palladium group metals-based nanocomposites are one of the most widely employed catalysts for the electrochemical reactions in fuel cells operating with acid or alkaline electrolytes [5,6,8].…”
Section: Introductionmentioning
confidence: 99%
“…Recently, nanosized carbon-metal composites have attracted great interest because of their unique physical and chemical properties and the importance of these materials as catalysts [18,19]. Commercial carbonmetal nanocomposites containing Pt, Pd, etc., have been commonly used as electrooxidation catalysts in direct methanol fuel cells [20,21]. Shen et al have investigated the electrochemical properties of C/Fe nanocomposite and used them to fabricate a mediator-free glucose biosensor successfully [22].…”
Section: Introductionmentioning
confidence: 99%