AR-PREDISSOCIATION SPECTROSCOPY OF PROTONATED IMIDAZOLE CLUSTERS
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Date
2009
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Publisher
Ohio State University
Abstract
We present Ar-predissociation spectra of cationic systems involving imidazole (Im): Im$^{+}$$\cdot$Ar, Im$\cdot$H$^{+}$$\cdot$Ar, Im$_2$$\cdot$H$^{+}$$\cdot$Ar, and Im$_3$$\cdot$H$^{+}$$\cdot$Ar in the range of 3000-3800 cm$^{-1}$. We track the evolution of the C-H and N-H stretching vibrational frequencies as a function of the number of imidazole groups present in the cluster. The C-H stretching frequencies red-shift while the intensities of these transitions appear to equalize with the addition of imidazole molecules to the motif. Also, as the length of the proton-bound imidazole chain increases, we notice a blue shift in the frequency of the free (non-Ar-solvated) N-H stretch toward that of the analogous vibrational mode in neutral imidazole (3518 cm$^{-1}$). The disappearance of Ar-bound N-H stretch when a second imidazole is added to the Im$\cdot$H$^{+}$$\cdot$Ar cluster strongly suggests a large-scale red shift of this feature as this proton becomes shared between two imidazole groups, illustrating the construction of an intermolecular proton-transfer scaffold. These data represent a microscopic model system for the ongoing effort to develop imidazole-based anhydrous PEM (Proton-Exchange Membrane) fuel cells.
Description
M.~Y.~Choi, R.~E.~Miller, J.~Phys.~Chem.~A 110, 30 (2006).
Author Institution: Sterling Chemistry Laboratory, Yale University, P.O Box 208107, New Haven, CT, 06520
Author Institution: Sterling Chemistry Laboratory, Yale University, P.O Box 208107, New Haven, CT, 06520