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vibrational spectroscopy; infrared photodissociation; double resonance; protonated water clusters; isomers; cryogenic ion trap
Abstract:
We use infrared/infrared double-resonance population labeling (IR2MS2) spectroscopy in the spectral region of the free and hydrogen-bonded OH stretching fundamentals (2880–3850 cm-1) to identify the number and to isolate the vibrational signatures of individual isomers contributing to the gas-phase IR spectra of the cryogenically cooled protonated water clusters H+(H2O)n·H2/D2 with n = 7–10. For n = 7, four isomers are identified and assigned. Surprisingly, the IR2MS2 spectra of the protonated water octa-, nona-, and decamer show no evidence for multiple isomers. The present spectra support the prediction that the quasi-2D to 3D structural transition occurs in between n = 8 and 9 in the cold cluster regime. However, the same models have difficulty explaining the remarkable size dependence of the isomer population reported here.