Cation-ether complexes in the gas phase: thermodynamic insight into molecular recognition

Trends in the bond dissociation energies for the binding of the alkali metal cations, Li+, Na+, K+, Rb+, and Cs+, to a series of ethers, 1-4 dimethyl ethers, 1 and 2 dimethoxy ethanes, and the crown ethers, 12c4, 15c5, and 18c6, are discussed. The bond energies have been determined in previous studies by analysis of the thresholds for collision-induced dissociation of the cation-ether complexes by xenon as measured in a guided ion beam tandem mass spectrometer. Details of the analysis of the data are reviewed and the accuracy of the results ascertained by comparison with theoretical results taken from the literature. Combined, the experimental and theoretical results provide an extensive thermochemical database for evaluation of the metal-crown complexes, a simple example of molecular recognition. These results indicate the importance of optimizing the metal-oxygen bond distances and the orientation of the local dipole on the oxygen towards the metal. Further, it is shown that excited state conformers of these complexes are probably observed in several systems as a result of interesting metal-dependent dynamics in the formation of the complexes. (C) 1999 Elsevier Science B.V.