A b i n i t i o SCF calculation on LinHm molecules and cations with four or less atoms

Abstract

All possible molecules and monopositive cations containing lithium and hydrogen, up to a total of four atoms, have been studied by ab initio calculations using SCF wave functions built from Gaussian‐type orbitals. The triatomic molecules and ions Li₂H, Li₃, H⁺₃ , LiH⁺₂ , Li₂H⁺, and Li⁺₃ were all found to be stable, i.e., of lower energy than any possible dissociation product. The neutral molecules H₃ and LiH₂ were found to be unstable relative to H₂+H and Li+H₂, respectively. The ions H⁺₃ and Li⁺₃ were found to be equilateral triangles, Li₂H⁺ was found to be a linear species, while all of the other stable triatomic species were found to be bent. The binding energies (relative to the most stable dissociation products) for the triatomic molecules and ions ranged from 4.53 eV for H⁺₃ to 0.24 eV for LiH⁺₂ . All of the ten possible tetra‐atomic molecules and cations were found to be stable (except H₄ neutral, for which no calculations were done). The lowest energy structures for LiH₃ and LiH⁺₃ consisted of planar structures with an H₂ unit perpendicular to an LiH unit and having the H₂ at the Li atom end. The lowest energy for Li₂H₂ was obtained for a planar rhombic structure, while for the corresponding cation it was obtained for a planar structure with an Li₂ unit perpendicular to an H₂ unit. Li₃H and Li₃H⁺ were found to have lowest energy for planar kite shaped structures with a lithium atom loosely bound to the base of a triangle formed by an Li–H–Li unit. The shapes of Li₄ and Li⁺₄ were respectively: a rhombic structure and a triangular Li⁺₃ unit with the fourth lithium atom attached to a vertex to form a planar structure similar to H⁺₄ . The predicted binding energies for the tetra‐atomic molecules and ions ranged from 0.08 eV for LiH₃ (least stable) to 1.20 eV for Li₂H₂ (most stable). The present work predicted for the first time a stable LiH₃ neutral molecule, and stable Li₂H⁺₂ and Li₃H⁺ cations. It also predicted for the first time that the most stable Li⁺₄ ion corresponded to a C_2v structure analogous to that of H⁺₄ .