In this project we will investigate structural and electronic properties of hybrid systems consisting of metal atoms and clusters interacting with silicon and carbon structures. Our aim is to propose novel hybrid systems with new optical properties such as enhanced absorption and emission in the visible regime by combining the optical response of metal clusters with those of fullerenes, silicon, nanodiamonds and graphene. For controlling of the electronic structure of silicon and carbon subunits by doping and hybrid formation two directions will be pursued: i) the possibility of formation of endohedrally trapped metal atoms and clusters within carbon and silicon cages and ii) interaction of metal clusters with three-dimensional and two-dimensional carbon nanostructures such as nanodiamonds and graphene. For this purpose we will use and advance the combination of time-dependent density functional theory (TDDFT) and its tight binding version (TDDFTB) with nonadiabatic dynamics for description of coupled electronnuclear dynamics. The ultimate goal is to propose building blocks for sensing and photonic materials based on metal cluster chromophores stabilized through hybridization with carbon and silicon structures, in close cooperation with experimental groups.

DFG Programme Research Units

Subproject of FOR 1282:  Controlling the Electronic Structure of Semiconductor Nanoparticles by Doping and Hybrid Formation

Participating Person Professorin Dr. Vlasta Bonacic-Koutecky