Publications [#231895] of David N. Beratan
Journal Articles
- Kuznetsov, AE; Balamurugan, D; Skourtis, SS; Beratan, DN, "Structural and electronic properties of bare and capped Cd nSen/CdnTen Nanoparticles (n = 6, 9)", Journal of Physical Chemistry CMarch,, 2012, 116(12), 6817-6830, American Chemical Society (ACS) [doi].
(last updated on 2026/01/19)Abstract:
Relationships between structures and properties (energy gaps, vertical ionization potentials (IPv ), vertical electron affinities (EAv ), and ligand binding energies) in small capped CdSe/CdTe nanoparticles (NPs) are poorly understood. We have performed the first systematic density functional theory (DFT) (B3LYP/Lanl2dz) study of the structural (geometries and ligand binding energies) and electronic (HOMO/LUMO energy gaps, IPsv , and EAsv ) properties of Cdn Sen /Cdn Ten NPs (n = 6, 9), both bare and capped with NH3 , SCH3 , and OPH3 ligands. NH3 and OPH3 ligands cause HOMO/LUMO energy destabilization in capped NPs, more pronounced for the LUMOs than for the HOMOs. Orbital destabilization drastically reduces both the IPv and EAv of the NPs compared with the bare species. For SCH3 -capped Cd6 X6 NPs, formation of expanded structures was found to be preferable to crystal-like structures. SCH3 groups cause destabilization of the HOMOs of the capped NPs and stabilization of their LUMOs, which indicates a reduction of the IPv of the capped NPs compared with the bare species. For the Cd9 X9 NPs, similar trends in stabilization/destabilization of frontier orbitals were observed in comparison with the capped Cd6 X6 species. Also, pinning of the HOMO energies was observed for the NH3 - and SCH3 -capped NPs as a function of a NP size. © 2012 American Chemical Society.