Electrostatics driven interaction of dihydrogen with s-block metal cations: Theoretical prediction of stable MH 16 complex

Abstract

Theoretical prediction of the formation of hydrogen-rich complexes of s-block metal ions and dihydrogen molecules, MH 16, (M = Li 1+, Na 1+, K 1+, Be 2+, Ca 2+, and Mg 2+) is reported. The number of hydrogen molecules attached to the metal cation is the highest ever reported in the literature. The interaction between s-block metal ions and hydrogen is found to be weak and the binding energy calculated by MP2 method using cc-pVDZ basis set is observed to be of the order of −30 to −13.5 kcal/mol and −180 to −60 kcal/mol for alkali and alkaline earth metal cations, respectively. Using this simple ion–molecule interaction, the possibility of the application of these complexes for developing hydrogen storage materials is discussed.