Abstract
We obtained gas-phase UV and IR spectra of 1:2 potassium ion-crown ether (CE) complexes (benzo-15-crown-5 (B15C5), benzo-18-crown-6 (B18C6), dibenzo-18-crown-6 (DB18C6), and 18-crown-6 (18C6)) at approximately 10 K and determined the structure and intermolecular interactions between K(+) and the two CEs, supported by quantum chemical calculations. The vibronic features of K(+)(B15C5)(2) revealed two conformers in the UV photodissociation spectrum, and the K(+) ion was held equally by both B15C5 moieties. For K(+)(B18C6)(2) and K(+)(DB18C6)(2), the K(+) ions were not equally shared between the two CEs. For K(+)(B18C6)(18C6) and K(+)(DB18C6)(18C6), the K(+) ion mainly interacted with 18C6, and the interaction between K(+) and B18C6 or DB18C6 was very weak. In contrast, K(+)(B18C6)(18C6) produced photofragment K(+)(B18C6) ion exclusively, whereas K(+)(DB18C6)(18C6) produced K(+)(18C6). The photodissociation of K(+)(B18C6)(18C6) indicates that K(+) transfer from 18C6 to B18C6 occurs upon UV excitation, probably in the electronically excited states.