Pressure-dependent morphology of trihexyl(tetradecyl)phosphonium ionic liquids: A molecular dynamics study

Sharma, S.; Gupta, Aditya; Dhabal, Debdas; Kashyap, Hemant K.

doi:10.1063/1.4963271

Cited by 34 publications

(36 citation statements)

References 89 publications

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“…This observation is correlated with the short carbon‐carbon bond length in phenyl groups in comparison with that in hexyl chains, and additionally, with the effective mediation of [NTF 2 ] anions between tetraalkylphosphonium cations. The latter is consistent with computational results for ILs consisting of tetraalkylphosphonium cations coupled with bromide and dicyanamide anions …”

Section: Resultssupporting

confidence: 91%

“…The peaks at intermediate q range around 7 nm −1 (0.89 nm in real space) are an indicative of mesoscopic liquid organization characterized by positive‐negative charge alternations in IL matrices . This charge ordering behavior is the need to maintain a lattice‐like arrangement of cations and anions to maximize cation‐anion Coulombic attractions and minimize anion‐anion and cation‐cation Coulombic repulsions in IL matrices, and thus is associated with a length scale between ions of the same charge separated by ions of opposite charge . For some ILs, this charge alternation peak is present as a weak shoulder because of an almost complete cancellation of peaks and anti‐peaks that offset this ordering phenomena at intermediate length scale .…”

Section: Resultsmentioning

confidence: 99%

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The Effect of Phenyl Substitutions on Microstructures and Dynamics of Tetraalkylphosphonium Bis(trifluoro‐ methylsulfonyl)imide Ionic Liquids

Wang

Laaksonen

et al. 2020

ChemPhysChem

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Extensive atomistic simulations demonstrated that a gradual substitution of hexyl chains with phenyl groups in tetraalkylphosphonium cations results in remarkable changes in hydrogen bonding interactions, liquid structures and scattering structural functions, and rotational dynamics of hexyl chains and phenyl groups in tetraalkylphosphonium bis(trifluoromethylsulfonyl)imide ionic liquids. Hydrogen donor sites in hexyl chains present competitive characteristics with those in phenyl groups in coordinating anions, as well as their continuous and intermittent hydrogen bonding dynamics. Cation‐cation and anion‐anion spatial correlations show concomitant shift to short distances with decreased peak intensities with variations of cation structures, whereas cation‐anion correlations have a distinct shift to large radial distances due to decreased associations of anions with neighboring cations. These microstructural changes are qualitatively manifested in shifts of prominent peaks for prevalent charge alternations and adjacency correlations between ion species in scattering structural functions. Meanwhile, rotational dynamics of hexyl chains speed up, which, in turn, slow down rotations of phenyl groups, whereas anions exhibit imperceptible changes in their rotational dynamics. These computational results are intrinsically correlated with conformational flexibilities, molecular sizes, and steric hindrance effects of phenyl groups in comparison with hexyl chains, and constrained distributions of anions around cations in heterogeneous ionic environments.

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Section: Resultssupporting

confidence: 91%

Section: Resultsmentioning

confidence: 99%

The Effect of Phenyl Substitutions on Microstructures and Dynamics of Tetraalkylphosphonium Bis(trifluoro‐ methylsulfonyl)imide Ionic Liquids

Wang

Laaksonen

et al. 2020

ChemPhysChem

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“…Zhao et al [26] reported all-atoms MD simulations of 1-butyl-3methylimidazolium hexafluorophosphate IL showing conformational changes in the cation upon pressure increase resulting in changes in density upon compression and large effects of pressure on ion mobility resulting in viscosity increase. Sharma et al [27] showed the appearance of solid-like ionic arrangements for trihexyl(tetradecyl)phosphonium-based ILs with a large reorganization of molecular functionalities upon compression. Dhungana et al [28] showed remarkable conformational changes upon compressions leading to the changes in physical properties and fluids' reorganization.…”

Section: Accepted Manuscriptmentioning

confidence: 99%

On the volumetric properties of 2-hydroxy ethylammonium formate ionic liquid under high-pressures: Measurement and molecular dynamics

Hosseini

Aparício

Alavianmehr

et al. 2018

Journal of Molecular Liquids

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“…It is evident that the structure of these ILs remain unaltered even in the presence of the solute. 56,57,60,85 3.2b SO 2 -ion g(r): Several experiments 39,41,42,86 and molecular simulation 15,16,60 studies exhibited that the nature of anions has a profound effect on the interaction between SO 2 and ILs. Figure S3 (in SI) shows the RDFs between the center of mass (COM) of the ions and that of SO 2 .…”

Section: Liquid Structurementioning

confidence: 99%

Molecular Dynamics Investigation of Efficient SO2 Absorption by Anion-Functionalized Ionic Liquids

Mondal

Balasubramanian

2017

J Chem Sci

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Ionic liquids are appropriate candidates for the absorption of acid gases such as SO 2. Six anionfunctionalized ionic liquids with different basicities have been studied for SO 2 absorption capacity by employing quantum chemical calculations and molecular dynamics (MD) simulations. Gas phase quantum calculations unveil that the high uptake of SO 2 in these ionic liquids originates from the basicity of the anions and the consequent enhanced anion-SO 2 interactions. MD simulations of SO 2-IL mixtures reveal the crucial role of both cations and anions in SO 2 dissolution. Multiple-site interactions of SO 2 with the anions have been identified. The calculated solvation free energy substantiates these observations. The order of computed Henry's law constant values with change in the anion is in fair agreement with experimentally determined SO 2 solubility order.

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Pressure-dependent morphology of trihexyl(tetradecyl)phosphonium ionic liquids: A molecular dynamics study

Cited by 34 publications

References 89 publications

The Effect of Phenyl Substitutions on Microstructures and Dynamics of Tetraalkylphosphonium Bis(trifluoro‐ methylsulfonyl)imide Ionic Liquids

The Effect of Phenyl Substitutions on Microstructures and Dynamics of Tetraalkylphosphonium Bis(trifluoro‐ methylsulfonyl)imide Ionic Liquids

On the volumetric properties of 2-hydroxy ethylammonium formate ionic liquid under high-pressures: Measurement and molecular dynamics

Molecular Dynamics Investigation of Efficient SO2 Absorption by Anion-Functionalized Ionic Liquids

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