Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5413725 | Journal of Molecular Liquids | 2006 | 13 Pages |
Abstract
Dielectric relaxation and dipole moment of binary mixtures of homologous series of mono alkyl ethers of ethylene glycol and of diethylene glycol, i.e., mono methyl, mono ethyl and mono butyl ethers of ethylene glycol (ROCH2CH2OH) and mono methyl, mono ethyl and mono butyl ethers of diethylene glycol (ROCH2CH2OCH2CH2OH) with ethyl alcohol (C2H5OH) of different concentrations were studied in dilute solutions of benzene, dioxane and carbon tetrachloride at 35 °C. Permittivity (εâ²) and loss (εâ³) at 10.1 GHz, static dielectric constant εo at 1 MHz and high frequency limiting dielectric constant εâ = nD2 at optical frequency of these molecules and their binary mixtures at different concentration were measured in dilute solutions of non-polar solvents. The average relaxation time Ïo, relaxation times corresponding to overall molecular reorientation Ï1 and group rotations Ï2 were determined using Higasi's single frequency measurement equations for dilute solutions. The evaluated values of relaxation times and free energy of activation ÎF were used to explore the solvent effect on molecular dynamics of these polar binary systems in non-polar solvents. The excess inverse relaxation time and excess free energy of activation were determined to confirm the existence of hydrogen-bonded heterogeneous cooperative domains of the ethers and alcohol molecules at different concentration their binary mixtures in non-polar solvents. The dipole moment of the binary mixtures was evaluated using Higasi's and Guggenheim's equation for dilute solutions. The evaluated values of dipole moments and computed dipole moment values using a simple mixing equation of the polar molecules binary mixture were used to explore the effect of non-polar solvent environment on heterogeneous molecular interactions between ethers and alcohol molecules. The effect of number of carbon atoms in the molecular structure of these homologous series molecules was also considered for the interpretation of various evaluated dielectric parameters.
Related Topics
Physical Sciences and Engineering
Chemistry
Physical and Theoretical Chemistry
Authors
R.J. Sengwa, Madhvi Madhvi, Abhilasha Abhilasha,