Non-Covalent interaction between Ionic liquid (1-ethyl-3-methylimidazolium chloride-aluminum chloride) and pure alcohols

The non-covalent molecular interactions of 1-Ethyl-3-methylimidazolium chloride-aluminum chloride and pure alcohols attract attention in the industry, academic and research. Chemists, engineers, designers, and some researchers are much interested in the accessibility of its trustworthy databases. 1-Ethyl-3-methylimidazolium chloride-aluminum chloride is interacting with pure alcohols with non-covalent interactions. Physicochemical properties with their convincing data interpreting the interactions occurring there. For that limiting apparent molar volume, molar refraction, and limiting apparent molar isentropic compressibility of the binary systems viz., ([EMIm]Cl/AlCl3) +methanol, ([EMIm]Cl/AlCl3) +ethanol, ([EMIm]Cl/AlCl3) +1-propanol, and ([EMIm]Cl/AlCl3)+1-butanol have been calculated using physicochemical properties i.e.,. density, refractive index, and speed of sound, respectively, within the temperature range T=293.15K-318.15K (with the interval of 5K). The ionic liquid strongly interacts with 1-butanol (106ϕ_v^o=874.52 m3 mol-1, 106•RM = 211.13 m3 mol-1, and 10-11•ϕ_k^o= -0.10 m3 mol-1 Pa-1, 108•((〖∂ϕ〗_E^o)⁄∂T)_p = 1.52 m3 mol-1 K-2) than other chosen primary alcohol at a higher temperature (318.15K). Among individual ions, the 106•ϕ_(V(ion))^o is higher for 〖AlCl_(4 )〗^-(522.96 m3 mol-1) than [EMIm]^+(351.56 m3 mol-1) at high temperature (318.15K) in 1-butanol. The molecular interactions occurring between the ionic liquid and solvent molecules are due to the structure-making capacity that causes by intermolecular forces and non-covalent interactions. Where, the 1-butanol strongly interact with ionic liquids. In beween the ions, the anaion interaction is greater than cation to solvents.