Modeling Ionic Reactions at Interstellar Temperatures: The Case of NH2- + H2 ↔ NH3 + H-

Structural features and enthalpy details are presented for the title reactions, both for the exothermic (forward) path to NH3 formation and for the endothermic (reverse) reaction to NH2– formation. Both pathways have relevance for the nitrogen chemistry in the interstellar medium (ISM). They are also helpful to document the possible role of H– in molecular clouds at temperatures well below room temperature. The structural calculations are carried out using different ab initio methods and are further employed to obtain the reaction rates down to the interstellar temperatures detected in earlier experiments. The reaction rates are obtained from the computed minimum energy path (MEP) using the variational transition-state theory (VTST) approach. The results indicate very good accord with experiment results at room temperature, while measured low temperature data down to 8 K are well described using an appropriately modified VTST approach. This is done by employing a temperature-dependent scaling, from room t...