The catalytic, electrochemical, and optical properties of gold clusters and small nanoparticles depend on the cluster size, on the nature of the ligand shell and on the solvent environment. The structural and electronic properties of the neutral and trication bare cluster Au<sub>11</sub> are investigated using density functional theory. We focus on the influence of the cluster charge, the solvent, and the nature and number of the ligands (thiol, thiolate, thiyl radical, phosphine, chloride, and chlorine) on the cluster electronic structure and its geometry, with special attention to the structural motifs present in the metallic core of the different conformers. Single bindings are systematically studied and a comparison with full ligand cov...
Ligand influence on the excited state structure of small neutral gold clusters (Au 2 and Au 4) has b...
The effects of aqueous solvent and biological ligands on the structural and electronic properties of...
Ab initio calculations are used to model small Au (n) nanoclusters and Au (m) SH clusters. The resul...
The catalytic, electrochemical, and optical properties of gold clusters and small nanoparticles depe...
The Influence of ligands on electronic structure of small gold clusters. (Au(2), Au(4)) has been inv...
The electronic properties of the neutral, positively and negatively charged bare Au-55, passivated A...
Ligand influence on the excited state structure of small neutral gold clusters (Au-2 and Au-4) has b...
The influence of ligands on electronic structure of small gold clusters (Au2, Au4) has been investig...
In this work, we use density functional theory calculations with a hybrid exchange–correlation funct...
In this thesis, bare and thiolate-protected gold nanoclusters and thiolated polymeric gold, silver ...
Determining geometric and electronic structures of gold nanoparticles are of fundamental interest in...
We analyze and compare the UV–visible absorption profiles, computed at the TD-DFT level, of several ...
The properties of small gold clusters are studied by use of density functional theory (DFT). A metho...
The structural and electronic properties of the bare Au55 cluster, and of the model thiol passivated...
We present here a detailed time-dependent density-functional theory investigation aimed at systemati...
Ligand influence on the excited state structure of small neutral gold clusters (Au 2 and Au 4) has b...
The effects of aqueous solvent and biological ligands on the structural and electronic properties of...
Ab initio calculations are used to model small Au (n) nanoclusters and Au (m) SH clusters. The resul...
The catalytic, electrochemical, and optical properties of gold clusters and small nanoparticles depe...
The Influence of ligands on electronic structure of small gold clusters. (Au(2), Au(4)) has been inv...
The electronic properties of the neutral, positively and negatively charged bare Au-55, passivated A...
Ligand influence on the excited state structure of small neutral gold clusters (Au-2 and Au-4) has b...
The influence of ligands on electronic structure of small gold clusters (Au2, Au4) has been investig...
In this work, we use density functional theory calculations with a hybrid exchange–correlation funct...
In this thesis, bare and thiolate-protected gold nanoclusters and thiolated polymeric gold, silver ...
Determining geometric and electronic structures of gold nanoparticles are of fundamental interest in...
We analyze and compare the UV–visible absorption profiles, computed at the TD-DFT level, of several ...
The properties of small gold clusters are studied by use of density functional theory (DFT). A metho...
The structural and electronic properties of the bare Au55 cluster, and of the model thiol passivated...
We present here a detailed time-dependent density-functional theory investigation aimed at systemati...
Ligand influence on the excited state structure of small neutral gold clusters (Au 2 and Au 4) has b...
The effects of aqueous solvent and biological ligands on the structural and electronic properties of...
Ab initio calculations are used to model small Au (n) nanoclusters and Au (m) SH clusters. The resul...