Quantum chemistry calculations of the growth patterns, simulated photoelectron spectra, and electronic properties of LaASi l (A = Sc, Y, La; l ≤ 10) compounds and their anions.

The growth patterns, simulated photoelectron spectra, and electronic properties of LaASi l (A = Sc, Y, and La; l ≤ 10) compounds and their anions were studied via quantum chemistry calculations using the Perdew-Burke-Ernzerhof (PBE) method and unprejudiced structural searching software ABCluster. The results revealed that the growth patterns of the most stable structures of neutral and anionic LaASi l showed an adsorptive mode. The lowest-energy structures (LESs) of the LaASi l ( l ≤ 7) clusters were similar, except for those of anionic LaYSi4 - and LaYSi5 - and neutral LaScSi7 . Additionally, we investigated and calculated the photoelectron spectra, vertical detachment energies, adiabatic electron affinities, relative stability, charge transfer, magnetic moment, and chemical bond analysis of the LaASi l ground-state structures. The La2 Si l clusters exhibited higher stability than the LaYSi l and LaScSi l systems owing to their higher dissociation energies (DEs). The DEs of the LESs in the LaASi3 molecule are higher than those of other clusters. Thus, the LaASi3 cluster shows potential as a building framework for Si-based cluster materials with good stability. The natural population analysis data and chemical bond analysis results showed that the spd hybridization of the orbitals of the metal atoms in the LaASi l system occurred. Except for the LaScSi9 and LaScSi10 clusters, the neutral LaASi l compounds transform into the corresponding anions when an extra electron is accepted by the Si clusters.