The geometric and electronic ground-state structures of 30 isomers of six MS4 molecules (M= Group 8 metals Fe, Ru, Os, Hs, Sm, and Pu) have been studied by using quantum-chemical density functional theory and correlated wavefunction approaches. The MS4 species were compared to analogous MO4 species recently investigated (W. Huang, W.-H. Xu, W. H. E. Schwarz, J. Li, Inorg. Chem. 2016, 55, 4616). A metal oxidation state (MOS) with a high value of eight appeared in the low-spin singlet T-d geometric species (Os,Hs)S-4 and (Ru,Os,Hs)O-4, whereas a low MOS of two appeared in the high-spin septet D-2d species Fe(S-2)(2) and (slightly excited) metastable Fe(O-2)(2). The ground states of all other molecules had intermediate MOS values, with S2-, S-2(2-), S-2(1-) (and O2-, O1-, O-2(2-), O-2(1-)) ligands bonded by ionic, covalent, and correlative contributions. The known tendencies toward lower MOS on going from oxides to sulfides, from Hs to Os to Ru, and from Pu to Sm, and the specific behavior of Fe, were found to arise from the different atomic orbital energies and radii of the (n-1)p core and (n-1)d and (n-2)f valence shells of the metal atoms in row n of the periodic table. The comparative results of the electronic and geometric structures of the MO4 and MS4 species provides insight into the periodicity of oxidation states and bonding.

• 出版日期2017-8-4
• 单位清华大学; Los Alamos