Potential energy surfaces for the photodissociation H2O→O(1Dg + H2(X1Σ+g)

The mechanism of electronic quenching of the A 2A state of CH by ground-state H, is qualitatively investigated by calculating the appropriate potential energy surfaces. It is shown that the appearance of an early potential barrier of 0.15 eV and of a late barrier of 0.6 eV on the potential energy su

The generation of metastable O, ('Xg+) and Oz('Ag) in the H + 0, system of reactions was studied by the flow discharge chemiluminescence detection method. In addition to the Oz('Pg') and Oz(' , H0,(2A~oo) + H02(2AlohO), H02(zA~o,) + HO,(zA~oo), and H Oz(2A~oo) --+ H0,(2A&,o) emissions were detected

At the correlation-consistent polarized-valence quadruple-zeta complete active space self-consistent field second-order configuration interaction level of ab initio theory (cc-pVQZ CASSCF-SOCI), we calculated 129 points on the ground electronic state potential energy surface of the water dication H(

The infrared emission observed from Hz0 or Co, when added to discharged oxygen containing Oz(r Zg> and C&(lA ) is shown to arise from their vibrational excitation in the quenching of Oz(\* $'). There was no ev&nce that O$'X> is quenched to the ground state rather than to the ' 4 state.

The reaction of 'bare' Al+ with water has been examined by ab initio MP2 and QCISD (T ) methods. The Al( Hz0 ) + adduct is found to correspond to the global minimum with a bond dissociation energy of BDE = 28.8 kcal/mol. The inserted HAlOH+ isomer is less stable by 8.6 kcal/mol. Both isomers are sep