This volume explores the computational modelling of transition metal bimetallic (nanoalloy) clusters. The author uses a combination of global optimization techniques and density functional theory (DFT) calculations to study structures, bonding and chemical ordering.
This volume explores the computational modelling of transition metal bimetallic (nanoalloy) clusters. The author uses a combination of global optimiza...
The focus of this thesis is the computational modelling of transition metal bimetallic (nanoalloy) clusters. More specifically, the study of Pd-Pt, Ag-Pt, Au-Au and Pd-Au as a few tens of atoms in the gas phase. The author used a combination of global optimization techniques - coupled with a Gupta-type empirical many-body potential - and Density Functional Theory (DFT) calculations to study the structures, bonding and chemical ordering, as well as investigate the chemisorptions of hydrogen and carbon monoxide on bimetallic clusters. This research is highly relevant to experimental catalytic...
The focus of this thesis is the computational modelling of transition metal bimetallic (nanoalloy) clusters. More specifically, the study of Pd-Pt, Ag...
