Evidences for a Null Molar Volume Contribution by Hydroxyl Groups in Ammonium Bistriflimide-Based Ionic Liquids

Abstract: In this work, we report on the thermophysical and transport properties of seven ammonium bistriflimide ionic liquids. Aiming to study the effect of the manipulation of the ammonium cation on distinct properties of ionic liquids, we have considered two sets of bistriflimide-based ionic liquids with (i) three quasi-similar molar weight cations with distinct functional groups, [N2 1 1 3OH]+, [N2 1 1 2O1]+, and [N2 1 1 4]+; (ii) four cations with increasing number of 2-hydroxyethyl groups and/or alkyl side chain, … Show more

“…Electrostatic interactions were treated using the Ewald summation method considering six reciprocal-space vectors, and repulsive–dispersive interactions were explicitly calculated below a cut-off distance of 1.6 nm (long-range corrections were applied assuming the system has a uniform density beyond that cut-off radius). Further information can be found elsewhere [ 66 ].…”

Ionic Liquids and Water: Hydrophobicity vs. Hydrophilicity

“…Electrostatic interactions were treated using the Ewald summation method considering six reciprocal-space vectors, and repulsive–dispersive interactions were explicitly calculated below a cut-off distance of 1.6 nm (long-range corrections were applied assuming the system has a uniform density beyond that cut-off radius). Further information can be found elsewhere [ 66 ].…”

Ionic Liquids and Water: Hydrophobicity vs. Hydrophilicity

Apparent molar volumes of ILs [EmimNTf2], [BmimNTf2], and [BmmimNTf2] in DEC and PEGMME solvents

Assessing the impact of increase in the number of hydroxyl groups on the microscopic behaviors of ammonium-based room temperature ionic liquids: A combined fluorescence up-conversion, fluorescence correlation and NMR spectroscopic study