Activity of Carbon-Supported Platinum Nanoparticles Toward Methanol Oxidation Reaction

Abstract

Two groups of carbon-supported platinum nanoparticle catalysts have been prepared. In group 1, catalysts I and 11 were prepared using PtCl4 and H2PtCI6 as starting materials and 1-hexanethiol, HSCH2CH2CH2CH2CH2CH3, as a surfactant. For group 11, the same platinum complexes were used as starting materials (catalyst III from PtCl4, catalyst IV from H2PtCl6) and tert-octanethiol, HSC(CH3)(2)CH2CH2CH2CH2CH3, was used as a surfactant for the first time. It has been found that the group II catalysts are between similar to 2 and similar to 3.3 times more active toward methanol oxidation reaction compared to other prepared and commercial catalysts. Transmission electron microscopy shows that the platinum nanoparticles are homogeneously dispersed on the carbon support and exhibit a narrow size distribution; the average particle size was found to be 2 +/- 0.4 and 3 +/- 0.4 nm in diameter for group I and group II catalysts, respectively. X-ray diffractogram analysis indicates that the platinum nanoparticles have a face centered cubic structure consistent with that of platinum metal itself., X-ray photoelectron spectra of the catalysts indicate two different types of platinum with the Pt 4f(7/2) binding energies of 71.1, 74.4 eV; 71.3, 74.3 eV; 71.0, 74.4 eV; and 71.5, 74.5 eV for catalysts I-IV, respectively. These have been identified as Pt(0O) and Pt(IV), which could be platinum oxide or hydroxide. By looking at the oxidation state data, we found that catalysts I-IV consist of 71% Pt(0) and 29% Pt(IV); 83% Pt(0) and 17% Pt(IV); 76% Pt(0) and 24% Pt(IV); and 65% Pt(0) and 35% Pt(IV), respectively.