Rotational and vibrational relaxation of the NO3 - ion in molten binary systems (M,Ag)NO3 (M = Li,Na and K) by Raman spectroscopy

Polarized and depolarized Raman scattering spectra for the totally symmetric stretching υ₁ mode of nitrate ions (D_3h symmetry) in the molten binary systems (M1,Ag)NO₃(M1= Li, Na, and K) have been measured. Vibrational and rotational autocorrelation³ functions, C_v(t) and C_r(t), respectively, have been evaluated from Fourier transformation of the spectra. The shifts in the peak frequencies are deeply correlated with the polarizability of silver in these mixtures. The vibrational relaxation rate increases with increasing mole fraction of silver nitrate in (K,Ag)NO₃, but does not vary so much in (Li,Ag)NO₃ and (Na,Ag)NO₃. The vibrational relaxation time negatively deviates from additivity on the order of (Na,Ag)NO₃< (Li,Ag)NO₃< (K,Ag)NO₃. In the systems (Na,Ag)NO₃ and (K,Ag)NO₃ rotational relaxation time becomes slower with increasing concentration of AgNO₃. The Ag⁺ coordinating to several nitrate ions in these mixtures appreciably restricts the rotational motion of the nitrate ions. On the other hand, rotational motion becomes easier in the mixture system (Li,Ag)NO₃ mainly because the different preferential sites of the two cations coordinating to an NO₃ ^-ion, and partly because the exchange rates of these cations around the NO_-3 ^-ion are high.