Abstract
The potential energy surfaces of the N2O·SO2, N2O·N2O, and (N2O)2·SO2 van der Waals systems were extensively explored at the MP2 level of theory using Pople's 6-31G(d,p) and Dunning's cc-pVDZ, aug-cc-pVDZ, and cc-pVTZ basis sets. A total of 19 structures (seven for the trimer and six for each dimer) corresponding to stationary points on the potential energy surfaces were located and characterized. A dynamic structure corresponding to the interconversion of a number of configurations, which are of similar geometries and close in energy, is proposed for the N2O·SO2 dimer. It is consistent with the asymmetric structure derived from microwave spectroscopic studies and explains the splitting of the rotational bands experimentally observed. The slipped-parallel configuration theoretically predicted for the N2O·N2O structure agrees with the geometry derived from infrared spectroscopy. One of the lower energy configurations predicted by ab initio methodologies for the (N2O)2·SO2 trimer structure agrees rather wel...
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