Spectroscopic and Computational Studies of Aqueous Ethylene Glycol Solution Surfaces

Citations Over TimeTop 16% of 2004 papers

Abstract

The combination of Monte Carlo, ab initio, and DFT computational studies of ethylene glycol (EG) and EG-water hydrogen-bonding complexes indicate that experimental vibrational spectra of EG and EG-water solution surfaces have contributions from numerous conformations of both EG and EG-water. The computed spectra, derived from harmonic vibrational frequency calculations and a theoretical Boltzmann distribution, show similarity to the experimental surface vibrational spectra of EG taken by broad-bandwidth sum frequency generation (SFG) spectroscopy. This similarity suggests that, at the EG and aqueous EG surfaces, there are numerous coexisting conformations of stable EG and EG-water complexes. A blue shift of the CH2 symmetric stretch peak in the SFG spectra was observed with an increase in the water concentration. This change indicates that EG behaves as a hydrogen-bond acceptor when solvated by additional water molecules. This also suggests that, in aqueous solutions of EG, EG-EG aggregates are unlikely to exist. The experimental blue shift is consistent with the results from the computational studies.

Related Papers

• → The effect of ethylene and short-chain saturated fatty acids on ethylene sensitivity and binding in ripening bananas(1991)22 cited
• → Effects of External Ethylene on the Production of Endogenous Ethylene in Olive Leaf Tissue(1988)7 cited
• Modification of ethylene-induced ripening of 'Hass' avocados by an ethylene absorbing filter(2001)
• Effects of 1-MCP on Fruit Firmness, Respiration and Ethylene Production Induced by Exogenous Ethylene in Nectarine Fruit(2005)
• Susquehanna Chorale Spring Concert "Roots and Wings"(2017)