The unique properties of liquid water mainly arise from its hydrogen bond network. The geometry and dynamics of this network play a key role in shaping the characteristics of soft matter, from simple solutions to biosystems. Here we report an anomalous intrinsic fluorescence of HCl and NaOH aqueous solutions at room temperature that shows important differences in the excitation and emission bands between the two solutes. From ab initio time-dependent density functional theory modeling we propose that fluorescence emission could originate from hydrated ion species contained in transient cavities of the bulk solvent. These cavities, which are characterized by a stiff surface, could provide an environment that, upon trapping the excited state, suppresses the fast nonradiative decay and allows the slower radiative channel to become a possible decay pathway.
Villa, A., Doglia, S., De Gioia, L., Bertini, L., Natalello, A. (2019). Anomalous Intrinsic Fluorescence of HCl and NaOH Aqueous Solutions. THE JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 10(22), 7230-7236 [10.1021/acs.jpclett.9b02163].
Anomalous Intrinsic Fluorescence of HCl and NaOH Aqueous Solutions
Villa A. M.Primo
;Doglia S. M.;De Gioia L.;Bertini L.
Penultimo
;Natalello A.
Ultimo
2019
Abstract
The unique properties of liquid water mainly arise from its hydrogen bond network. The geometry and dynamics of this network play a key role in shaping the characteristics of soft matter, from simple solutions to biosystems. Here we report an anomalous intrinsic fluorescence of HCl and NaOH aqueous solutions at room temperature that shows important differences in the excitation and emission bands between the two solutes. From ab initio time-dependent density functional theory modeling we propose that fluorescence emission could originate from hydrated ion species contained in transient cavities of the bulk solvent. These cavities, which are characterized by a stiff surface, could provide an environment that, upon trapping the excited state, suppresses the fast nonradiative decay and allows the slower radiative channel to become a possible decay pathway.
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