The Structures of ZnCl 2 -Ethanol Mixtures, a Spectroscopic and Quantum Chemical Calculation Study

• Published in: Molecules (Basel, Switzerland) Vol. 26; no. 9
• Main Authors: Kalhor, Payam, Wang, Yaqian, Yu, Zhiwu
• Format: Journal Article
• Language: English
• Published: Switzerland 25.04.2021
• Subjects: spodium bond; ZnCl2; two-dimensional correlation spectroscopy; ethanol; excess spectroscopy
• ISSN: 1420-3049

We report in this article the structural properties, spectral behavior and heterogeneity of ZnCl -ethanol (EtOH) mixtures in a wide-composition range (1:3 to 1:14 in molar ratios), using ATR-FTIR spectroscopy and quantum chemical calculations. To improve the resolution of the initial IR spectra, excess spectroscopy and two-dimensional correlation spectroscopy were employed. The transformation process was suggested to be from EtOH trimer and EtOH tetramer to EtOH monomer, EtOH dimer and ZnCl -3EtOH complex upon mixing. The theoretical findings showed that increasing the content of EtOH was accompanied with the flow of negative charge to ZnCl . This led to reinforcement of the Zn O coordination bonds, increase of the ionic character of Zn‒Cl bond and weakening and even dissociation of the Zn‒Cl bond. It was found that in some of the ZnCl -EtOH complexes optimized at the gas phase or under the solvent effect, there existed hydroxyls with a very special interactive array in the form of Cl‒Zn O‒H Cl , which incredibly red-shifted to wavenumbers <3000 cm . This in-depth study shows the physical insights of the respective electrolyte alcoholic solutions, particularly the solvation process of the salt, help to rationalize the reported experimental results, and may shed light on understanding the properties of the deep eutectic solvents formed from ZnCl and an alcohol.