Add to ORKGThe atomic scale structure of the active sites in heterogeneous catalysts is central to their reactivity and selectivity. Therefore, understanding active site stability and evolution under different reaction conditions is key to the design of efficient and robust catalysts. Herein we describe theoretical calculations which predict that carbon monoxide can be used to stabilize different active site geometries in bimetallic alloys and then demonstrate experimentally that the same PdAu bimetallic catalyst can be transitioned between a single-atom alloy and a Pd cluster phase. Each state of the catalyst exhibits distinct selectivity for the dehydrogenation of ethanol reaction with the single-atom alloy phase exhibiting high selectivity to aceta...
Controlling the structure sensitivity of catalyzed reactions over metals is central to developing at...
At the catalytic interface, catalysts are represented by an ensemble of cluster isomers or surfaces,...
Carbon–carbon coupling is an important step in many catalytic reactions, and performing sp³–sp³ carb...
Rational catalyst design is crucial toward achieving more energy-efficient and sustainable catalytic...
In this work, we demonstrate that the synergistic effect of PdAu nanoparticles (NPs) in hydrogenatio...
Control of heterogeneous catalytic sites through their surrounding chemical environment at an atomic...
We report the preparation and hydrogenation performance of a single-site palladium catalyst that was...
A new concept for the development of catalysts is introduced. Utilizing ordered Pd-Ga intermetallic ...
The model bimetallic Pd-Au/HOPG catalysts have been investigated in CO oxidation reaction using comb...
Elucidation of reaction mechanisms and the geometric and electronic structure of the active sites th...
textIn recent years, palladium (Pd) has been extensively studied for a possible alternative for Pt t...
The relationship between the homogeneous and heterogeneous phases of a catalyst is widely neglected ...
Bimetallic nanoparticles afford geometric variation and electron redistribution via strong metal-met...
Extending the toolbox from mono- to bimetallic catalysts is key in realizing efficient chemical proc...
We discuss a simple yet effective strategy for escaping traditional linear scaling relations in hete...
Controlling the structure sensitivity of catalyzed reactions over metals is central to developing at...
At the catalytic interface, catalysts are represented by an ensemble of cluster isomers or surfaces,...
Carbon–carbon coupling is an important step in many catalytic reactions, and performing sp³–sp³ carb...
Rational catalyst design is crucial toward achieving more energy-efficient and sustainable catalytic...
In this work, we demonstrate that the synergistic effect of PdAu nanoparticles (NPs) in hydrogenatio...
Control of heterogeneous catalytic sites through their surrounding chemical environment at an atomic...
We report the preparation and hydrogenation performance of a single-site palladium catalyst that was...
A new concept for the development of catalysts is introduced. Utilizing ordered Pd-Ga intermetallic ...
The model bimetallic Pd-Au/HOPG catalysts have been investigated in CO oxidation reaction using comb...
Elucidation of reaction mechanisms and the geometric and electronic structure of the active sites th...
textIn recent years, palladium (Pd) has been extensively studied for a possible alternative for Pt t...
The relationship between the homogeneous and heterogeneous phases of a catalyst is widely neglected ...
Bimetallic nanoparticles afford geometric variation and electron redistribution via strong metal-met...
Extending the toolbox from mono- to bimetallic catalysts is key in realizing efficient chemical proc...
We discuss a simple yet effective strategy for escaping traditional linear scaling relations in hete...
Controlling the structure sensitivity of catalyzed reactions over metals is central to developing at...
At the catalytic interface, catalysts are represented by an ensemble of cluster isomers or surfaces,...
Carbon–carbon coupling is an important step in many catalytic reactions, and performing sp³–sp³ carb...