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W2294366399 abstract "A semi-molecular theory is developed here for studying dielectric relaxation (DR) in binary mixtures of ionic liquids (ILs) with common dipolar solvents. Effects of ion translation on DR time scale, and those of ion rotation on conductivity relaxation time scale are explored. Two different models for the theoretical calculations have been considered: (i) separate medium approach, where molecularities of both the IL and dipolar solvent molecules are retained, and (ii) effective medium approach, where the added dipolar solvent molecules are assumed to combine with the dipolar ions of the IL, producing a fictitious effective medium characterized via effective dipole moment, density, and diameter. Semi-molecular expressions for the diffusive DR times have been derived which incorporates the effects of wavenumber dependent orientational static correlations, ion dynamic structure factors, and ion translation. Subsequently, the theory has been applied to the binary mixtures of 1-butyl-3-methylimidazolium tetrafluoroborate ([Bmim][BF4]) with water (H2O), and acetonitrile (CH3CN) for which experimental DR data are available. On comparison, predicted DR time scales show close agreement with the measured DR times at low IL mole fractions (xIL). At higher IL concentrations (xIL > 0.05), the theory over-estimates the relaxation times and increasingly deviates from the measurements with xIL, deviation being the maximum for the neat IL by almost two orders of magnitude. The theory predicts negligible contributions to this deviation from the xIL dependent collective orientational static correlations. The drastic difference between DR time scales for IL/solvent mixtures from theory and experiments arises primarily due to the use of the actual molecular volume (Vmoldip) for the rotating dipolar moiety in the present theory and suggests that only a fraction of Vmoldip is involved at high xIL. Expectedly, nice agreement between theory and experiments appears when experimental estimates for the effective rotational volume (Veffdip) are used as inputs. The fraction, Veffdip/Vmoldip, sharply decreases from ∼1 at pure dipolar solvent to ∼0.01 at neat IL, reflecting a dramatic crossover from viscosity-coupled hydrodynamic angular diffusion at low IL mole fractions to orientational relaxation predominantly via large angle jumps at high xIL. Similar results are obtained on applying the present theory to the aqueous solution of an electrolyte guanidinium chloride (GdmCl) having a permanent dipole moment associated with the cation, Gdm+." @default.
W2294366399 created "2016-06-24" @default.
W2294366399 creator A5007268087 @default.
W2294366399 creator A5053997137 @default.
W2294366399 date "2016-03-10" @default.
W2294366399 modified "2023-10-16" @default.
W2294366399 title "Dielectric relaxation in ionic liquid/dipolar solvent binary mixtures: A semi-molecular theory" @default.
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W2294366399 doi "https://doi.org/10.1063/1.4943271" @default.
W2294366399 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26979695" @default.
W2294366399 hasPublicationYear "2016" @default.
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