Abstract
The structures, energetics, spectroscopies, and stabilities of the doublet Si 2PS radical are explored at the density functional theory and ab initio levels. Fifteen minima including the chainlike, three-membered ring, four-membered ring, and cagelike structures are located connected by 24 interconversion transition states. The structures of the stable isomers and their relevant transition states are further optimized at the QCISD/6-311G(2d) level. At the CCSD(T)/6-311+G(2df)//DFT/B3LYP/6-311G(d)+ZPVE level, the global minimum is found to be a four-membered-ring cPSiSSi 10 (0.0 kcal/mol) with a 2A′′ electronic state, whereas the cagelike isomer cagePSiSiS 15 (3.5 kcal/mol), the three-membered-ring isomers S-cSiPSi 4 (12.1 kcal/mol), and P-cSiSiS 5 (27.6 kcal/mol) also possess considerable kinetic stabilities (more than 10.0 kcal/mol). The bonding natures and structures of the four isomers 4, 5, 10, and 15 are analyzed. The calculated results are compared with those of the analogous molecules C 2PS and SiCPS.
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