Mathe, Ntombizodwa RScriba, Manfred RCoville, NJ2014-12-222014-12-222014-11Mathe N.R, Scriba M.R, and Coville N.J, Methanol oxidation reaction activity of microwave irradiated and heat-treated Pt/Co and Pt/Ni nano-electrocatalysts, International Journal of Hydrogen Energy, Elsevier, Vol, 39(33), pp. 18871–188810360-3199http://www.sciencedirect.com/science/article/pii/S0360319914026299http://hdl.handle.net/10204/7824Copyright: 2014 Elsevier. This is the abstract only version of the work. The definitive version is published in International Journal of Hydrogen Energy, Vol, 39(33), pp. 18871–18881Bimetallic Pt nanoparticles were prepared by alloying Pt with the non-noble transition metals, Co and Ni, using a conventional heat-treatment (HT) method and microwaveirradiation (MW). The resulting samples were PteCo-Ht, PteNi-HT, PteCo, MW and Pt eNi-MW. The aim was to evaluate the electrocatalytic behaviour and surface properties of the materials based on the alloying metal used and the synthesis process. XRD studies of the nanoparticles indicated that alloyed structures were formed for the microwave (MW) synthesized samples, as seen by a decrease in the lattice parameters. Using X-ray photoelectron spectroscopy analysis, surface segregation of Co and Ni occurred (1:4 surface atomic ratio PteCo or Ni) for the PteCo-MW and PteNi-MW samples. In contrast the heattreated PteNi catalyst showed Pt surface segregation. Methanol oxidation reaction (MOR) studies revealed an increase in the electrocatalytic activity upon the addition of Co and Ni to Pt when compared to a monometallic Pt catalyst. The presence of oxide and hydroxide alloying metal species is suggested to be the cause of the observed enhancement in the catalytic activity. Overall the PteNi-MW catalyst displayed the best MOR activity and this is attributed to the large amounts of Ni-hydroxide species observed on the catalyst surface.enFuel cellsMethanol oxidation reactionPlatinum nanoparticlesMicrowave-irradiationCO poisoningArticleMathe, N. R., Scriba, M. R., & Coville, N. (2014). Methanol oxidation reaction activity of microwave irradiated and heat-treated Pt/Co and Pt/Ni nano-electrocatalysts. http://hdl.handle.net/10204/7824Mathe, Ntombizodwa R, Manfred R Scriba, and NJ Coville "Methanol oxidation reaction activity of microwave irradiated and heat-treated Pt/Co and Pt/Ni nano-electrocatalysts." (2014) http://hdl.handle.net/10204/7824Mathe NR, Scriba MR, Coville N. Methanol oxidation reaction activity of microwave irradiated and heat-treated Pt/Co and Pt/Ni nano-electrocatalysts. 2014; http://hdl.handle.net/10204/7824.TY - Article AU - Mathe, Ntombizodwa R AU - Scriba, Manfred R AU - Coville, NJ AB - Bimetallic Pt nanoparticles were prepared by alloying Pt with the non-noble transition metals, Co and Ni, using a conventional heat-treatment (HT) method and microwaveirradiation (MW). The resulting samples were PteCo-Ht, PteNi-HT, PteCo, MW and Pt eNi-MW. The aim was to evaluate the electrocatalytic behaviour and surface properties of the materials based on the alloying metal used and the synthesis process. XRD studies of the nanoparticles indicated that alloyed structures were formed for the microwave (MW) synthesized samples, as seen by a decrease in the lattice parameters. Using X-ray photoelectron spectroscopy analysis, surface segregation of Co and Ni occurred (1:4 surface atomic ratio PteCo or Ni) for the PteCo-MW and PteNi-MW samples. In contrast the heattreated PteNi catalyst showed Pt surface segregation. Methanol oxidation reaction (MOR) studies revealed an increase in the electrocatalytic activity upon the addition of Co and Ni to Pt when compared to a monometallic Pt catalyst. The presence of oxide and hydroxide alloying metal species is suggested to be the cause of the observed enhancement in the catalytic activity. Overall the PteNi-MW catalyst displayed the best MOR activity and this is attributed to the large amounts of Ni-hydroxide species observed on the catalyst surface. DA - 2014-11 DB - ResearchSpace DP - CSIR KW - Fuel cells KW - Methanol oxidation reaction KW - Platinum nanoparticles KW - Microwave-irradiation KW - CO poisoning LK - https://researchspace.csir.co.za PY - 2014 SM - 0360-3199 T1 - Methanol oxidation reaction activity of microwave irradiated and heat-treated Pt/Co and Pt/Ni nano-electrocatalysts TI - Methanol oxidation reaction activity of microwave irradiated and heat-treated Pt/Co and Pt/Ni nano-electrocatalysts UR - http://hdl.handle.net/10204/7824 ER -