Theoretical prediction of atomic and electronic structure of neutral Si6Om (m=1-11) clusters

MARIA C. CAPUTO; OFELIA OÑA; MARTA FERRARO

JOURNAL OF CHEMICAL PHYSICS

american Institute of Physics

Lugar: Nueva York; Año: 2009 vol. 130 p. 134115 - 134123

0021-9606

In this paper we found the most stable structures of silicon-oxide clusters of Si6Om
m=1–11 by using the genetic algorithm. In this work the genetic algorithm uses a semiempirical energy function, MSINDO, to find the best cluster structures of Si6Om
m=1–11. The best structures found were further optimized using the density functional theory. We report the stable geometries, binding energies, lowest unoccupied molecular orbital-highest occupied molecular orbital gap, dissociation energies for the most favorable fragmentation channels and polarizabilities of Si6Om
m=1–11. For most of the clusters studied here we report structures not previously found using limited search approaches on common structural motifs.