Add to ORKGElucidation of reaction mechanisms and the geometric and electronic structure of the active sites themselves is a challenging, yet essential task in the design of new heterogeneous catalysts. Such investigations are best implemented via a multipronged approach that comprises ambient pressure catalysis, surface science, and theory. Herein, we employ this strategy to understand the workings of NiAu single-atom alloy (SAA) catalysts for the selective nonoxidative dehydrogenation of ethanol to acetaldehyde and hydrogen. The atomic dispersion of Ni is paramount for selective ethanol to acetaldehyde conversion, and we show that even the presence of small Ni ensembles in the Au surface results in the formation of undesirable byproducts via C-C sci...
Carbon–carbon coupling is an important step in many catalytic reactions, and performing sp³–sp³ carb...
The mechanisms of ethanol (EtOH) decomposition via C–C or C–O bond cleavage on alloy surfaces are cu...
This project explored the catalytic oxidation chemistry that can be effected on a Au/Ni(111) surface...
Elucidation of reaction mechanisms and the geometric and electronic structure of the active sites th...
This dissertation focuses on the use of precious metals in ultra-high vacuum to get a better mechani...
Catalytic dehydrogenation, or the selective removal of hydrogen from hydrocarbons, is an economicall...
Design of an efficient new catalyst that can mimic the enzymatic pathway for catalytic dehydrogenati...
Most alcohols, when exposed to oxygen, are converted into CO2 and H2O as a result of a combustion re...
Ethanol (EtOH) decomposition has been widely studied in recent years. However, the initial dehydroge...
The atomic scale structure of the active sites in heterogeneous catalysts is central to their reacti...
Ni/Au is an alloy combination that while, immiscible in the bulk, exhibits a rich array of surface g...
Ethanol is one of the most important industrial chemicals considering its wide range of uses. From u...
Ethanol dehydrogenation mechanism was investigated over catalysts containing Cu and Ni metals prepar...
NiCu alloyed catalysts are investigated for ethanol dehydrogenation. Seven Xwt%Ni-Ywt%Cu/Mg(Al)(Ni)(...
The catalytic oxidation of bio-ethanol to acetaldehyde entails a promising route for valorization of...
Carbon–carbon coupling is an important step in many catalytic reactions, and performing sp³–sp³ carb...
The mechanisms of ethanol (EtOH) decomposition via C–C or C–O bond cleavage on alloy surfaces are cu...
This project explored the catalytic oxidation chemistry that can be effected on a Au/Ni(111) surface...
Elucidation of reaction mechanisms and the geometric and electronic structure of the active sites th...
This dissertation focuses on the use of precious metals in ultra-high vacuum to get a better mechani...
Catalytic dehydrogenation, or the selective removal of hydrogen from hydrocarbons, is an economicall...
Design of an efficient new catalyst that can mimic the enzymatic pathway for catalytic dehydrogenati...
Most alcohols, when exposed to oxygen, are converted into CO2 and H2O as a result of a combustion re...
Ethanol (EtOH) decomposition has been widely studied in recent years. However, the initial dehydroge...
The atomic scale structure of the active sites in heterogeneous catalysts is central to their reacti...
Ni/Au is an alloy combination that while, immiscible in the bulk, exhibits a rich array of surface g...
Ethanol is one of the most important industrial chemicals considering its wide range of uses. From u...
Ethanol dehydrogenation mechanism was investigated over catalysts containing Cu and Ni metals prepar...
NiCu alloyed catalysts are investigated for ethanol dehydrogenation. Seven Xwt%Ni-Ywt%Cu/Mg(Al)(Ni)(...
The catalytic oxidation of bio-ethanol to acetaldehyde entails a promising route for valorization of...
Carbon–carbon coupling is an important step in many catalytic reactions, and performing sp³–sp³ carb...
The mechanisms of ethanol (EtOH) decomposition via C–C or C–O bond cleavage on alloy surfaces are cu...
This project explored the catalytic oxidation chemistry that can be effected on a Au/Ni(111) surface...