Ultraviolet absorption and luminescence of matrix-isolated adenine

Polewski, Krzysztof; Zinger, David; Trunk, John; Sutherland, John C.

Ultraviolet absorption and luminescence of matrix-isolated adenine

2011

Polewski, Krzysztof | Zinger, David | Trunk, John | Sutherland, John C.

We have investigated the absorption, the fluorescence and phosphorescence emission and the fluorescence lifetimes of adenine in low-temperature argon and nitrogen matrices at 15K. Compared to other environments the absorption spectrum shows higher intensity at the shortest wavelengths, and a weak apparent absorption peak is observed at 280nm. The resolved fluorescence excitation spectrum has five peaks at positions corresponding to those observed in the absorption spectrum. The position of the fluorescence maximum depends on the excitation wavelength. Excitation below 220nm displays a fluorescence maximum at 305nm, while for excitations at higher wavelengths the maximum occurs at 335nm. The results suggest that multiple-emission excited electronic states are populated in low-temperature gas matrices. Excitation at 265nm produces a phosphorescence spectrum with a well-resolved vibrational structure and a maximum at 415nm. The fluorescence decays corresponding to excitation at increasing energy of each resolved band could be fit with a double exponential, with the shorter and longer lifetimes ranging from 1.7 to 3.3ns and from 12 to 23ns, respectively. Only for the excitation at 180nm one exponential is required, with the calculated lifetimes of 3.3ns. The presented results provide an experimental evidence of the existence of multiple site-selected excited electronic states, and may help elucidate the possible deexcitation pathways of adenine. The additional application of synchrotron radiation proved to result in a significant enhancement of the resolution and spectral range of the phenomena under investigation.

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