Effect of internal and translational energy on the NH3+(ν) + D2 ion-molecule reaction

The D$ beam from the moderately high pressure source of a tandem mass spectrometer is reacted with NH3 resulting in formation of NHsD+, NHf and NHzD+. The relative abundance of these products is reported 3s a function of the average number of D$-D2 collisions in the source. This information is used

The ion-molecule reactions of CHaNH2+, (CH3),NH+, and (CH3)3Nf with the respective amines have been investigated at thermal kinetic energies in a high-pressure photoionization mass spectrometer at several wavelengths (energies) in the vacuum ultraviolet. The absolute rate coefficient for proton tra

Complete quantum state distributions for HD (u= 1) and HD(u=2) are obtained by photolyzing HI at 266 nm m the presence of D2 and detecting the nascent HD product via (2+ 1) resonance-enhanced multiphoton ionization (REMPI). Calibration against an effusive oven source ( d 1800 K) yields any necessary

The moderately exotherrnic ion-molecule reaction O+ t Hz and its isotopic variants have been the subject of several dynamical studies in our group. In this work we report an extensive quasiclassical trajectory study on the dynamics of this system at different initial relative energies considering a

Basis set expansion and correlation effects on computed hydrogen bond energies of the positive ion complexes AH, \* for AH, = NH3, OHz and FH, have been evaluated. The addition of diffuse functions on nonhydrogen atoms is the single most important enhancement of split-valence plus polarization basi