Add to ORKGWe have successfully built a general framework to comprehend the structure-selectivity relationship in ethanol electrooxidation on platinum by density functional theory calculations. Based on the reaction mechanisms on three basal planes and five stepped surfaces, it was found that only (110) and n(111) × (110) sites can enhance CO2 selectivity but other non-selective step sites are more beneficial to activity
A one-dimensional model is proposed for the anode of a liquid-feed direct ethanol fuel cell. The com...
In this paper we present results on the electro-oxidation of ethanol on unsupported (carbon free) pl...
In the field of catalysis on solid surfaces, discrimination of the site-specific chemistry taking pl...
Ethanol fuel cells require selective catalysts for complete oxidation of the fuel, which involves C–...
In this thesis, first-principles calculations within the density functional theory (DFT) framework w...
Supplementary files for article Insights into ethanol electro-oxidation over solvated Pt(1 0 0): Ori...
Understanding ethanol electrooxidation reaction kinetics is fundamental to the development of direct...
The use of ethanol fuel in direct ethanol fuel cells has been hindered by the slow kinetics of anodi...
The ethanol oxidation reaction (EOR) has drawn increasing interest in electrocatalysis and fuel cell...
The lack of catalytic efficiency towards the complete ethanol oxidation reaction (EOR) has hindered ...
This works deals with the identification of preferential site-specific activation at a model Pt surf...
The ethanol oxidation reaction (EOR) has gained tremendous attention worldwide in electrocatalysis a...
The rational design of better electrocatalysts for the oxidation of C1–C2 organic molecules requires...
The oxidation of ethanol (EtOH) at Pt(111) electrodes is dominated by the 4e path leading to acetic ...
Using a combination of experimental and computational methods, mainly FTIR and DFT calculations, new...
A one-dimensional model is proposed for the anode of a liquid-feed direct ethanol fuel cell. The com...
In this paper we present results on the electro-oxidation of ethanol on unsupported (carbon free) pl...
In the field of catalysis on solid surfaces, discrimination of the site-specific chemistry taking pl...
Ethanol fuel cells require selective catalysts for complete oxidation of the fuel, which involves C–...
In this thesis, first-principles calculations within the density functional theory (DFT) framework w...
Supplementary files for article Insights into ethanol electro-oxidation over solvated Pt(1 0 0): Ori...
Understanding ethanol electrooxidation reaction kinetics is fundamental to the development of direct...
The use of ethanol fuel in direct ethanol fuel cells has been hindered by the slow kinetics of anodi...
The ethanol oxidation reaction (EOR) has drawn increasing interest in electrocatalysis and fuel cell...
The lack of catalytic efficiency towards the complete ethanol oxidation reaction (EOR) has hindered ...
This works deals with the identification of preferential site-specific activation at a model Pt surf...
The ethanol oxidation reaction (EOR) has gained tremendous attention worldwide in electrocatalysis a...
The rational design of better electrocatalysts for the oxidation of C1–C2 organic molecules requires...
The oxidation of ethanol (EtOH) at Pt(111) electrodes is dominated by the 4e path leading to acetic ...
Using a combination of experimental and computational methods, mainly FTIR and DFT calculations, new...
A one-dimensional model is proposed for the anode of a liquid-feed direct ethanol fuel cell. The com...
In this paper we present results on the electro-oxidation of ethanol on unsupported (carbon free) pl...
In the field of catalysis on solid surfaces, discrimination of the site-specific chemistry taking pl...