Existence of optical phonons in the room temperature ionic liquid 1-ethyl-3-methylimidazolium trifluoromethanesulfonate

Burba, Christopher M.; Frech, Roger

doi:10.1063/1.3571458

Cited by 12 publications

(19 citation statements)

References 61 publications

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“…Dipolar coupling theory 14 has been previously used to relate the magnitude of the TO-LO splitting to the dipole moment derivatives of vibrational modes in a variety of isotropic and anisotropic crystals 15–17 , disordered salts 18,19 , and molten salts 8,19 . A simplified form of dipolar coupling theory results in the following expression for the TO-LO splitting of a normal mode in a unimolecular unit cell: 16 …”

Section: Experimental Methodsmentioning

confidence: 99%

“…The dipole moment derivative for a particular vibrational mode may be determined by integrating the extinction coefficient data, 8 …”

Section: Experimental Methodsmentioning

confidence: 99%

“…Burba and Frech 8 proposed a solution to this problem by quantifying quasilattice structure with simple FT-IR spectroscopic experiments. The heart of the approach is to compare two independent measurements of the dipole moment derivative for select vibrational modes of the ions composing the ionic liquid.…”

Section: Introductionmentioning

confidence: 99%

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Using FT-IR Spectroscopy to Measure Charge Organization in Ionic Liquids

et al. 2013

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A major goal in the field of ionic liquids is correlating transport property trends with the underlying liquid structure of the compounds, such as the degree of charge organization among the constituent ions. Traditional techniques for experimentally assessing charge organization are specialized and not readily available for routine measurements. This represents a significant roadblock in elucidating these correlations. We use a combination of transmission and polarized-ATR infrared spectroscopy to measure the degree of charge organization for ionic liquids. The technique is illustrated with a family of 1-alkyl-3-methylimidazolium trifluoromethansulfonate ionic liquids at 30°C. As expected, the amount of charge organization decreases as the alkyl side chain is lengthened, highlighting the important role of short-range repulsive interactions in defining quasilattice structure. Inherent limitations of the method are identified and discussed. The quantitative measurements of charge organization are then correlated with trends in the transport properties of the compounds to highlight the relationship between charge and momentum transport and the underlying liquid structure. Most research laboratories possess infrared spectrometers capable of conducting these measurements, thus, the proposed method may represent a costeffective solution for routinely measuring charge organization in ionic liquids.

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Section: Experimental Methodsmentioning

confidence: 99%

“…The dipole moment derivative for a particular vibrational mode may be determined by integrating the extinction coefficient data, 8 …”

Section: Experimental Methodsmentioning

confidence: 99%

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Using FT-IR Spectroscopy to Measure Charge Organization in Ionic Liquids

et al. 2013

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“…PILs with more delocalized chargesa nd fewer ionic interactions are expected to exhibit higher conductivities. [35,36] In ILs, ion-ion interactions (strong short-range cohesive forces) give rise to long-range, correlated ion motion,w hich is responsible for ion transport. As ac onsequence, PILs with shorter alkyl chains (lowerm olecular weights) exhibit higherc onductivity.…”

Section: Introductionmentioning

confidence: 99%

“…The ionic conductivity of PILs is also known to decreasea st he size of the cation is increased and becomes less mobile. Attempts to shed some light onto this issue by means of infrared spectroscopy were proposed by Burba et al [35,36] These authors concluded that in the presence of large anions and asymmetrical imidazolium cations, ILs exhibit low degrees of charge ordering. Although the literature suggestst hat the trendso bserved for anions are less clear, [31] in the present study this effect is not relevant,a st he two PILs under analysis contain the same anion.…”

Section: Introductionmentioning

confidence: 99%

Di‐ureasil Hybrid Electrolytes Incorporating a New Proton Ionic Liquid

et al. 2016

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The protic ionic liquid (PIL) N‐butylimidazolium trifluoromethanesulfonate ([BIm][TfO]) was obtained for the first time and incorporated into a sol–gel‐derived di‐ureasil matrix with a concentration of X=5, 10, and 30 %, where X is the ratio of the mass of PIL per mass of poly(oxyethylene). Four years after their synthesis, the resulting quasi‐anhydrous electrolytes remained amorphous, homogeneous, flexible, and thermally stable below 200 °C. SEM/EDS data revealed the presence of the PIL at the surface of the xerogels with X>5 %, demonstrating that this type of morphological characterization is mandatory to avoid misleading ionic conductivity values. The highest ionic conductivity was produced in the washed sample with X=30 % (3.5×10−5 and 2.1×10−3 S cm−1 at 25 and 170 °C, respectively). The present family of electrolytes yielded higher conductivities than the N‐ethylimidazolium trifluoromethanesulfonate‐based analogues introduced earlier by our group and may thus be considered as promising candidates for applications in fuel cells.

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