The Dielectric Response of Room-Temperature Ionic Liquids:  Effect of Cation Variation

Weingärtner, Hermann; Padmanabhan, Sasisanker; Daguenet, C.; Dyson, Paul J.; Krossing, Ingo; Slattery, John M.; Schubert, Thomas

doi:10.1021/jp0671188

Cited by 196 publications

(211 citation statements)

References 42 publications

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“…[13][14][15] However, Hunger et al have demonstrated that an Onsager-type equation adequately characterizes the temperature dependence of the static dielectric constant for a variety of ionic liquids. 10 Additionally, it is well-known that Onsager's equation is only applicable to aprotic liquids 16 and controversy exists about whether the imidazolium cation undergoes hydrogen bonding interactions.…”

Section: Introductionmentioning

confidence: 99%

Mass and charge transport in 1-alkyl-3-methylimidazolium triflate ionic liquids

Petrowsky

Burba

Frech

2013

The Journal of Chemical Physics

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Temperature-dependent transport properties in ionic liquids, such as the ionic conductivity and fluidity, are often characterized empirically through equations that require multiple adjustable fitting parameters in order to adequately describe the data. These fitting parameters offer no insight into the molecular-level mechanism of transport. Here the temperature dependence of these transport properties in 1-alkyl-3-methylimidazolium triflate ionic liquids is explained using the compensated Arrhenius formalism (CAF), where the conductivity or fluidity assumes an Arrhenius-like form that also contains a dipole density dependence in the exponential prefactor. The resulting CAF activation energies for conductivity and fluidity are much higher than those obtained from polar organic liquids and electrolytes. The CAF very accurately describes the temperature dependence of both conductivity and fluidity using only system properties (i.e., density and activation energy). These results imply that the transport mechanism in molten salts is very similar to that in polar organic liquids and electrolytes.

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Section: Introductionmentioning

confidence: 99%

Mass and charge transport in 1-alkyl-3-methylimidazolium triflate ionic liquids

Petrowsky

Burba

Frech

2013

The Journal of Chemical Physics

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“…The problem involved in ordering effect of the field energy and the disordering influence of thermal energy is such that each molecule with a permanent dipole moment µ makes a contribution to the polarization proportional to the field. [4]. However, Langevin idea that said that the dipole must be aligned completely in order to achieve saturation value failed to consider dipole-dipole interaction [5] (i.e., he neglected Eµ) and hence the expression he obtained for polarization cannot be used without modification when such an interaction in magnetic field is significant especially as it is caused by induced dipoles, which gives rise to dispersions.…”

Section: Introductionmentioning

confidence: 99%

Analysis of the Influence of Dielectric Polarization on the Study of Electronic Orientation of Electromagnetic Field Propagating Through Oxide Based Thin Film

Ugwu¹

2016

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Abstract:In this work, we analyze the significance of dielectric polarizability on the study of electronic orientation in material which facilitates the understanding of the relative importance of the various contributions of the electronic polarizability of oxide based materials on electromagnetic wave propagation through it. In the mathematical formulation, Poisson equation in two dimensions was used to obtain polarizability constant, b. The polarizability constant was then varied and used in conjunction with the dielectric constants to assess the influence of b on wave propagation through the material. Based on this, electromagnetic wave equation was solved to obtain the wave function E(x, y) in one and two dimensions with position and time for different in relation to various values of the polarizability constant. The graphs for real and complex values of the wave function in relation to polarizability were depicted respectively in figures. The graphs were found to display various characteristic behaviour for different polarizability constants.

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“…Raman and optical Kerr-effect (OKE) spectroscopy have been able to access the relatively high frequency region from ~0.1 to 10 THz. [26][27][28] The sub-THz region, corresponding to intermolecular modes, has been investigated by terahertz time-domain spectroscopy [29,30], dielectric relaxation spectroscopy (DRS) [31][32][33][34][35][36][37], and OKE spectroscopy [3,5,26,[38][39][40][41][42][43][44][45]. In general, DRS is limited to a maximum frequency of about 100 GHz whereas the spectra of most RTILs are continuous up to several THz.…”

Section: Introductionmentioning

confidence: 99%

Terahertz dynamics of ionic liquids from a combined dielectric relaxation, terahertz, and optical Kerr effect study: evidence for mesoscopic aggregation

et al. 2010

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To exploit the great potential of room-temperature ionic liquids (RTILs) as solvents that offer both low environmental impact and product selectivity, an understanding of the liquid structure, the microscopic dynamics, and the way in which the pertinent macroscopic properties, such as viscosity, thermal conductivity, ionic diffusion, and solvation dynamics depend on these properties, is essential. We have measured the intermolecular dynamics of the 1,3-dialkylimidazolium- and [bmim][DCA], at 25 °C from below 1 GHz to 10 THz by ultrafast optical Kerr effect (OKE) spectroscopy and dielectric relaxation spectroscopy (DRS) augmented by time-domain terahertz and far-infrared FTIR spectroscopy. This concerted approach allows a more detailed analysis to be made of the relatively featureless terahertz region, where the higher frequency diffusional modes are strongly overlapped with librations and intermolecular vibrations. In the terahertz region, the signal-to-noise ratio of the OKE spectra is particularly high and the data show that there is a greater number of librational and intermolecular vibrational modes than previously detected. Of greatest interest though, is an intense low frequency (sub-alpha) relaxation that we show is in strong accordance with recent simulations that observe mesoscopic structure arising from aggregates or clusters; structure that explains the anomalous and inconveniently-high viscosities of these liquids.Terahertz spectroscopy, dielectric relaxation spectroscopy, Kerr spectroscopy, room-temperature ionic liquids

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The Dielectric Response of Room-Temperature Ionic Liquids: Effect of Cation Variation

Cited by 196 publications

References 42 publications

Mass and charge transport in 1-alkyl-3-methylimidazolium triflate ionic liquids

Mass and charge transport in 1-alkyl-3-methylimidazolium triflate ionic liquids

Analysis of the Influence of Dielectric Polarization on the Study of Electronic Orientation of Electromagnetic Field Propagating Through Oxide Based Thin Film

Terahertz dynamics of ionic liquids from a combined dielectric relaxation, terahertz, and optical Kerr effect study: evidence for mesoscopic aggregation

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