Add to ORKGPt-Cu 3 alloy formed upon annealing Pt-Cu 2 . Acid leaching produced Pt-Cu nanoparticles consisting of Pt-skeleton surface structure and PtCu 3 alloy core. The Pt-skeleton could be transformed to well-defined Pt-skin structure through further annealing the leached Pt-Cu nanoparticles in H 2 . Decorating the Pt-skin surfaces with Fe oxide nanopatches resulted in enhanced reactivity in the preferential oxidation of CO in excess H 2 . The tri-component Pt-Cu-Fe catalysts exhibited comparable activity to the bi-component Pt-Fe catalysts but used much less Pt
In the Hydrogen technology, the preferential oxidation of CO in excess of hydrogen (PrOx reaction) i...
An unsupported Cu-Pt core-shell catalyst is prepared by a transmetalation reaction between copper an...
Platinum-based intermetallic nanoparticles (NPs), using the abundantly available element copper, wit...
Pt-Cu 3 alloy formed upon annealing Pt-Cu 2 . Acid leaching produced Pt-Cu nanoparticles consisting ...
Pt-Cu/carbon black catalysts were prepared by an impregnation-reduction method followed by acid leac...
In this work, we employ Pt-Cu alloy nanoparticles supported on reduced-SrTiO3 (RSTO) to obtain a poi...
Surface Fe ensembles, surface alloyed Fe atoms, and subsurface Fe species have been identified at Pt...
Recently, Pt<sub>3</sub>M (M = Fe, Ni, Co, Cu, etc.) intermetallic compounds have been highlighted a...
The development and commercialization of direct ethanol fuel cells requires active and durable elect...
Carbon supported Pt3Fe, PtFe and Pt5.75Fe5.75Cu catalysts are prepared via the impregnation of Fe an...
Pt?Co nanocatalysts have been synthesized and tested for both preferential oxidation of CO in excess...
Improving the CO tolerance of Pt-based catalysts is very meaningful for the application in proton ex...
Carbon supported Pt-Cu catalyst (PtCu/C) with surface enriched Pt was synthesized by annealing the P...
Supported bimetallic PtFe catalyst is one of the most promising candidates for preferential CO oxida...
The high cost of the catalyst material is a large obstacle for the commercialization of Direct Metha...
In the Hydrogen technology, the preferential oxidation of CO in excess of hydrogen (PrOx reaction) i...
An unsupported Cu-Pt core-shell catalyst is prepared by a transmetalation reaction between copper an...
Platinum-based intermetallic nanoparticles (NPs), using the abundantly available element copper, wit...
Pt-Cu 3 alloy formed upon annealing Pt-Cu 2 . Acid leaching produced Pt-Cu nanoparticles consisting ...
Pt-Cu/carbon black catalysts were prepared by an impregnation-reduction method followed by acid leac...
In this work, we employ Pt-Cu alloy nanoparticles supported on reduced-SrTiO3 (RSTO) to obtain a poi...
Surface Fe ensembles, surface alloyed Fe atoms, and subsurface Fe species have been identified at Pt...
Recently, Pt<sub>3</sub>M (M = Fe, Ni, Co, Cu, etc.) intermetallic compounds have been highlighted a...
The development and commercialization of direct ethanol fuel cells requires active and durable elect...
Carbon supported Pt3Fe, PtFe and Pt5.75Fe5.75Cu catalysts are prepared via the impregnation of Fe an...
Pt?Co nanocatalysts have been synthesized and tested for both preferential oxidation of CO in excess...
Improving the CO tolerance of Pt-based catalysts is very meaningful for the application in proton ex...
Carbon supported Pt-Cu catalyst (PtCu/C) with surface enriched Pt was synthesized by annealing the P...
Supported bimetallic PtFe catalyst is one of the most promising candidates for preferential CO oxida...
The high cost of the catalyst material is a large obstacle for the commercialization of Direct Metha...
In the Hydrogen technology, the preferential oxidation of CO in excess of hydrogen (PrOx reaction) i...
An unsupported Cu-Pt core-shell catalyst is prepared by a transmetalation reaction between copper an...
Platinum-based intermetallic nanoparticles (NPs), using the abundantly available element copper, wit...