Structural transformation in Pd nanoclusters induced by Cu doping: an ADFT study
L. Santiago-Silva, H. Cruz-Martínez, H. Rojas-Chávez, L. López-Sosa, P. Calaminici

TL;DR
This study uses theoretical calculations to explore how adding copper atoms changes the structure and properties of larger palladium nanoclusters.
Contribution
The study reveals structural transformations in Pd nanoclusters induced by Cu doping, focusing on clusters larger than previously studied.
Findings
Doping Pd nanoclusters with Cu atoms induces a structural transition from icosahedral to double-icosahedral-base configurations.
Binding energy per atom increases with higher Cu concentration in the nanoclusters.
Chemical reactivity, as indicated by the HOMO–LUMO gap, increases with increasing Cu content.
Abstract
Transition metal nanoparticles have gained great importance due to their promising applications in various fields such as energy, electronics, medicine, and agriculture. For these applications, materials with outstanding properties are currently required. Therefore, different strategies have been established to improve the properties of pure nanoparticles such as alloying, doping, and formation of composites. Among these strategies, doping is gaining great importance because it has been demonstrated that doped nanoparticles have better properties than pure nanoparticles. Therefore, it is essential to know the role of doping on the structures and properties of clusters with more than 16 atoms. Consequently, in this study, we propose a theoretical study of structures and properties focusing on pure Pd19, Cu-doped Pd18 (Pd18Cu), and Cu2-doped Pd17 (Pd17Cu2) nanoclusters and thus elucidate…
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Taxonomy
TopicsNanocluster Synthesis and Applications · nanoparticles nucleation surface interactions · Advanced Chemical Physics Studies
