Add to ORKGSubnano surface-supported catalytic clusters can be generally characterized by many low-energy isomers accessible at elevated temperatures of catalysis. The most stable isomer may not be the most catalytically active. Additionally, isomers may interconvert across barriers, i.e., exhibit fluxionality, during catalysis. To study the big picture of the cluster fluxional behavior, we model such a process as isomerization graph using bipartite matching algorithm, harmonic transition state theory, and paralleled nudged elastic band method. All the minimal energy paths form a minimum spanning tree (MST) of the original graph. Detailed inspection shows that, at temperatures typical for catalysis, the cluster geometry changes frequently within sever...
Reactivity studies on catalytic transition metal clusters are usually performed on a single global m...
We study subnanometer (sub-nm) Pt clusters supported by highly reducible oxide surfaces and establis...
Catalytic systems are complex and dynamic, exploring vast chemical spaces on multiple timescales. In...
Metal sub-nano clusters are important materials for catalysis of chemical reactions such as dehydrog...
Metallic cluster catalysts have many thermodynamically accessible isomers with diverse active sites ...
Almost two centuries after the word “catalysis” was first introduced by Berzelius in 1835, the field...
The rationale of the catalytic activity observed in experiments is a crucial task in fundamental cat...
At the catalytic interface, catalysts are represented by an ensemble of cluster isomers or surfaces,...
When small clusters are studied in chemical physics or physical chemistry, one perhaps thinks of the...
Alumina supported Pt nanoclusters under a hydrogen environment play a crucial role in many heterogen...
Scaling relationships in catalysis impose fundamental limitations on the catalyst maximal performanc...
The Sabatier activity volcano provides intuitive guide for catalyst design, but also imposes fundame...
Scaling relationships in catalysis impose fundamental limitations on the catalyst maximal performanc...
Reactivity studies on catalytic transition metal clusters are usually performed on a single global m...
Heterogeneous catalysis is at the heart of the chemical industry. Being able to tune and design effi...
Reactivity studies on catalytic transition metal clusters are usually performed on a single global m...
We study subnanometer (sub-nm) Pt clusters supported by highly reducible oxide surfaces and establis...
Catalytic systems are complex and dynamic, exploring vast chemical spaces on multiple timescales. In...
Metal sub-nano clusters are important materials for catalysis of chemical reactions such as dehydrog...
Metallic cluster catalysts have many thermodynamically accessible isomers with diverse active sites ...
Almost two centuries after the word “catalysis” was first introduced by Berzelius in 1835, the field...
The rationale of the catalytic activity observed in experiments is a crucial task in fundamental cat...
At the catalytic interface, catalysts are represented by an ensemble of cluster isomers or surfaces,...
When small clusters are studied in chemical physics or physical chemistry, one perhaps thinks of the...
Alumina supported Pt nanoclusters under a hydrogen environment play a crucial role in many heterogen...
Scaling relationships in catalysis impose fundamental limitations on the catalyst maximal performanc...
The Sabatier activity volcano provides intuitive guide for catalyst design, but also imposes fundame...
Scaling relationships in catalysis impose fundamental limitations on the catalyst maximal performanc...
Reactivity studies on catalytic transition metal clusters are usually performed on a single global m...
Heterogeneous catalysis is at the heart of the chemical industry. Being able to tune and design effi...
Reactivity studies on catalytic transition metal clusters are usually performed on a single global m...
We study subnanometer (sub-nm) Pt clusters supported by highly reducible oxide surfaces and establis...
Catalytic systems are complex and dynamic, exploring vast chemical spaces on multiple timescales. In...