Effect of Alkali Metal Atoms Doping on Structural and Nonlinear Optical Properties of the Gold-Germanium Bimetallic Clusters.

A new series of alkali-based complexes, AM@GeAu (AM = Li, Na, and K), have been theoretically designed and investigated by means of the density functional theory calculations. The geometric structures and electronic properties of the species are systematically analyzed. The adsorption of alkali metals maintains the structural framework of the gold-germanium bimetallic clusters, and the alkali metals prefer energetically to be attached on clusters' surfaces or edges. The high chemical stability of Li@GeAu is revealed by the spherical aromaticity, the hybridization between the Ge atoms and Au-4 states, and delocalized multi-center bonds, as well as large binding energies. The static first hyperpolarizability () is related to the cluster size and geometric structure, and the AM@GeAu (AM = Na and K) clusters exhibit the much larger values up to 13050 a.u., which are considerable to establish their strong nonlinear optical (NLO) behaviors. We hope that this study will promote further application of alkali metals-adsorbed germanium-based semiconductor materials, serving for the design of remarkable and tunable NLO materials.