Solvation dynamics through Raman spectroscopy: Hydration of Br2 and Br3 −, and solvation of Br2 in liquid bromine - Archive ouverte HAL
Article Dans Une Revue The Journal of Chemical Physics Année : 2011

Solvation dynamics through Raman spectroscopy: Hydration of Br2 and Br3 −, and solvation of Br2 in liquid bromine

Edward T. Branigan
  • Fonction : Auteur
Nadine Halberstadt
V. A. Apkarian
  • Fonction : Auteur

Résumé

Raman spectroscopy of bromine in the liquid phase and in water illustrates uncommon principles and yields insights regarding hydration. In liquid Br2, resonant excitation over the B(3Π0u +) ← X(1Σg +) valence transition at 532 nm produces a weak resonant Raman (RR) progression accompanied by a five-fold stronger non-resonant (NR) scattering. The latter is assigned to pre-resonance with the C-state, which in turn must be strongly mixed with inter-molecular charge transfer states. Despite the electronic resonance, RR of Br2 in water is quenched. At 532 nm, the homogeneously broadened fundamental is observed, as in the NR case at 785 nm. The implications of the quenching of RR scattering are analyzed in a simple, semi-quantitative model, to conclude that the inertial evolution of the Raman packet in aqueous Br2 occurs along multiple equivalent water-Br2 coordinates. In distinct contrast with hydrophilic hydration in small clusters and hydrophobic hydration in clathrates, it is concluded that the hydration shell of bromine in water consists of dynamically equivalent fluxional water molecules. At 405 nm, the RR progression of Br3 − is observed, accompanied by difference transitions between the breathing of the hydration shell and the symmetric stretch of the ion. The RR scattering process in this case can be regarded as the coherent photo-induced electron transfer to the solvent and its radiative back-transfer.

Dates et versions

hal-00932450 , version 1 (17-01-2014)

Identifiants

Citer

Edward T. Branigan, Nadine Halberstadt, V. A. Apkarian. Solvation dynamics through Raman spectroscopy: Hydration of Br2 and Br3 −, and solvation of Br2 in liquid bromine. The Journal of Chemical Physics, 2011, 134, pp.174503. ⟨10.1063/1.3583477⟩. ⟨hal-00932450⟩
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