Geometry Change on Ionization. Calculation of IV-IA Relaxation Energies for NH3, N2H4 and CH3NH2
Australian Journal of Chemistry
39(8) 1281 - 1285
Published: 1986
Abstract
Ab initio calculations on the NH3, N2H4 and CH3NH2 molecules and their respective ground- state cations represent the experimentally observed adiabatic and vertical ionization energies with reasonable accuracy. The unusually large IV - IA difference energy for N2H4 is a measure of the considerable change in geometry accompanying ionization. The calculated value of this relaxation energy at the MP3/6-31G** level is 2.3 eV , rather higher than the two experimental measurements of 1.55 eV , based on the band profile of the ultraviolet photoelectron spectrum, and 1.6-1.8 eV , determined from ion-molecule equilibrium measurements. The smaller IV-IA values for NH3 and CH3NH2 are calculated more accurately. Theoretical vibration frequencies are also obtained for the molecular cations.
https://doi.org/10.1071/CH9861281
© CSIRO 1986