The bonding character of AlSO isomers in quartet excited states: Ab initio and density functional theory studies

The geometries and the bonding properties have been predicted for four isomers of AlSO species in the quartet state at density functional theory and coupled cluster [CCSD(T)] all‐electron correlation levels with a large 6‐311+G(3df) basis set. Results have indicated that for the AlSO species in quartet state the lowest state is ⁴A″ state which corresponds to a cyclic structure; the other three isomers (cyclic, bent, and linear) are higher than the lowest state by 26.9 kcal/mol (cyclic ⁴A′), 19.4 kcal/mol (⁴A″), and 28.3 kcal/mol (linear AlSO ⁴Σ), respectively. The calculated dissociation energies for the lowest quartet state species (AlSO: ⁴A″) are 27.3 kcal/mol for the radical mechanism [M(²P)+SO(³Σ^?)] and 154.7 kcal/mol for the mechanism [M(²P)+S(³P)+O(³P)]. Inspection of the bonding character indicates that the cyclic AlSO species in the lowest quartet state (⁴A″) should be classified as thiodioxide (similar to disulfide or dioxide), and the cyclic ⁴A′ state should be classified as thiosuperoxide. The bent Al? SO(⁴A″) species has some thiosuperoxide character, while the linear Al? SO(⁴Σ) structure should be classified as a molecular complex with a weak interaction bonding. However, this thiosuperoxide is not as ionic as LiO₂ and LiSO and is also less ionic than the cyclic AlO₂. In addition, the combinations of Al with SO species exhibit the amphoteric character of Al. © 2002 John Wiley & Sons, Inc. Int J Quantum Chem, 2002