oa South African Journal of Chemistry - Highly active, carbon-supported, PdSn nano-core, partially covered with Pt, as catalysts for methanol oxidation : research article
|Article Title||Highly active, carbon-supported, PdSn nano-core, partially covered with Pt, as catalysts for methanol oxidation : research article|
|© Publisher:||South African Chemical Institute (SACI)|
|Journal||South African Journal of Chemistry|
|Affiliations||1 Northwest Normal University, China, 2 Northwest Normal University, China, 3 Northwest Normal University, China, 4 Northwest Normal University, China, 5 University of the Western Cape, 6 University of the Western Cape and 7 University of the Western Cape|
|Publication Date||Jan 2012|
|Pages||69 - 74|
|Keyword(s)||Electrocatalyst, Fuel cell, Methanol oxidation and Pt-decorated|
Carbon-supported, Pt partially covered, PdSn alloy nanoparticles (Pt-PdSn/C) were synthesized via a metathetical reaction of PdSn alloy nanoparticles, and a platinum precursor. The electrochemical activity was evaluated by methanol oxidation. The Pt-PdSn/C catalysts were characterized by transmission electron microscopy (TEM), X-ray photoelectron spectroscopy (XPS) and cyclic voltammograms (CV). TEM showed that Pt grows layer-by-layer on the surface of PdSn cores and the thickness of the Pt shell is 0.2 nm, about 1-2 monolayers thick. Cyclic voltammetry results showed that PdSn/C nanoparticles, partially covered by Pt, have a better electrocatalystic performance than conventional PtRu/C and PtPdSn/C catalysts. Electrochemical active surface areas of the Pt-PdSn/C was 2.30 times larger than that of PtRu/C and 1.8 times higher than that of PtPdSn/C catalysts. The results showed that a metathetical reaction is an efficient way of preparing, low Pt loading, highly active electrocatalyst, for methanol oxidation, thus offering great potential for producing Pt-based electrocatalyst for direct methanol fuel cells on a large scale.
Article metrics loading...