ROTATIONAL SPECTRUM OF THE TRIMETHYLAMINE-HYDROGEN IODIDE DIMER - AN ION-PAIR (CH-3)3NH- IN THE GAS-PHASE(...I)

The ground-state rotational spectra of the two isotopomers [(CH3)3N,HI ] and [(CH3)3N,DI] of a dimer formed between trimethylamine and hydrog en iodine have been observed in the gas phase by the pulsed-nozzle, F- T microwave technique. The spectroscopic constants B0, D(J), D(JK), ch i(N-14) and chi(I) have been determined for both isotopomers and have the values 894.0954(2) MHz, 0.010 17(18) kHz, 5.880(10) kHz, -2.451(8) MHz, and -341.204(14) MHz, respectively for [(CH3)3N,HI]. It is concl uded, by comparing the iodine nuclear quadrupole coupling constant chi (I) and the intermolecular stretching force constant k(sigma) with tho se of model hydrogen-bonded (H3P...HI) and ion-pair (Na+...I-) analogs , that (CH3)3NH+...I- is the appropriate description for the gas-phase dimer. An experimentally defined fractional ionic character indicates that the extent of proton transfer increases smoothly along the serie s [(CH3)3N,HX], where X = F, Cl, Br, and I. Simple energetic considera tions are shown to be in agreement with this conclusion.