An Ab Initio Study on the Mechanism of the Atmospheric Reaction NH2+O3→H2NO+O2

## Abstract For Abstract see ChemInform Abstract in Full Text.

The geometries of the reactant, products, and transition state of the title reaction were optimized at the UHF and UMP2 levels with the double and triple zeta basis sets as well as polarization functions by using the energy-gradient method. The potential-energy barrier for this reaction is 3.73 kcal

The reaction of OH radicals with olefins is known to be important in atmospheric chemistry. From experimental data a global mechanism has been proposed, but the regioselectivity of the products is uncertain. In this work, the OH-propene-O 2 reaction has been studied with ab initio molecular orbital

An MP4 full,SDTQ r6-311qqG d,p rrMP2 full r6-311qq Ž . G d,p ab initio study was performed of the reactions of formyl and isoformyl cations with H O and NH , which play an important role in flame and 2 3 interstellar chemistries. Two different confluent channels were located leading to CO q H O q r

The reaction Y + + NH, + Y'NH + H, was theoretically investigated by ab initio MO methods. Two possible pathways (1-1 H, loss and 1-2 H, loss) on the singlet potential energy surface and reaction mechanism were examined and discussed. The singlet and triplet PESs of this reaction system were compare