Add to ORKGReactivity studies on catalytic transition metal clusters are usually performed on a single global minimum structure. With the example of a Pt13 cluster under a pressure of hydrogen, we show from first-principle calculations that low energy metastable structures of the cluster can play a major role for catalytic reactivity and that hence consideration of the global minimum structure alone can severely underestimate the activity. The catalyst is fluxional with an ensemble of metastable structures energetically accessible at reaction conditions. A modified genetic algorithm is proposed to comprehensively search for the low energy metastable ensemble (LEME) structures instead of merely the global minimum structure. In order to reduce the compu...
The rationale of the catalytic activity observed in experiments is a crucial task in fundamental cat...
Alumina supported Pt nanoclusters under a hydrogen environment play a crucial role in many heterogen...
How in situ structural reconstructions affect the hydrogen evolution reaction (HER) activity of smal...
Reactivity studies on catalytic transition metal clusters are usually performed on a single global m...
Reactivity studies on catalytic transition metal clusters are usually performed on a single global m...
Metal sub-nano clusters are important materials for catalysis of chemical reactions such as dehydrog...
When small clusters are studied in chemical physics or physical chemistry, one perhaps thinks of the...
Single-atom catalysts (SACs) minimize noble metal utilization and can alter the activity and selecti...
At the catalytic interface, catalysts are represented by an ensemble of cluster isomers or surfaces,...
Almost two centuries after the word “catalysis” was first introduced by Berzelius in 1835, the field...
Metallic cluster catalysts have many thermodynamically accessible isomers with diverse active sites ...
Developing more reactive and selective catalysts for petrochemical refining and synthesis, specifica...
Heterogeneous catalysis is at the heart of the chemical industry. Being able to tune and design effi...
Density functional theory enables quantitative computational analysis of reaction intermediates. The...
The rationale of the catalytic activity observed in experiments is a crucial task in fundamental cat...
Alumina supported Pt nanoclusters under a hydrogen environment play a crucial role in many heterogen...
How in situ structural reconstructions affect the hydrogen evolution reaction (HER) activity of smal...
Reactivity studies on catalytic transition metal clusters are usually performed on a single global m...
Reactivity studies on catalytic transition metal clusters are usually performed on a single global m...
Metal sub-nano clusters are important materials for catalysis of chemical reactions such as dehydrog...
When small clusters are studied in chemical physics or physical chemistry, one perhaps thinks of the...
Single-atom catalysts (SACs) minimize noble metal utilization and can alter the activity and selecti...
At the catalytic interface, catalysts are represented by an ensemble of cluster isomers or surfaces,...
Almost two centuries after the word “catalysis” was first introduced by Berzelius in 1835, the field...
Metallic cluster catalysts have many thermodynamically accessible isomers with diverse active sites ...
Developing more reactive and selective catalysts for petrochemical refining and synthesis, specifica...
Heterogeneous catalysis is at the heart of the chemical industry. Being able to tune and design effi...
Density functional theory enables quantitative computational analysis of reaction intermediates. The...
The rationale of the catalytic activity observed in experiments is a crucial task in fundamental cat...
Alumina supported Pt nanoclusters under a hydrogen environment play a crucial role in many heterogen...
How in situ structural reconstructions affect the hydrogen evolution reaction (HER) activity of smal...