Thermodynamic studies on the interactions of diglycine with magnesium chloride in aqueous medium at different temperatures |
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Authors: | Bhajan S Lark Tarlok S Banipal |
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Institution: | a Department of Chemistry, Guru Nanak Dev University, Amritsar 143 005, India b Department of Applied Chemistry, Guru Nanak Dev University, Amritsar 143 005, India |
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Abstract: | Apparent molar heat capacities (CP2,?), apparent molar volumes (V2,?), and viscosities (η) of diglycine in water and in aqueous magnesium chloride (MgCl2) solutions of molality mS ≈ (0.05 to 0.70) mol · kg−1 over the temperature range T = (288.15 to 328.15) K have been determined using high sensitivity micro-differential scanning calorimeter, vibrating-tube digital density meter, and automatic viscosity measuring unit (AVS 350), respectively. The data have been used to calculate the partial molar heat capacities and partial molar volumes at infinite dilution. The viscosity B-coefficients have also been obtained from viscosity data using Jones-Dole equation. The and values of diglycine in aqueous MgCl2 solutions are higher than those in water and thus exhibit positive transfer functions ( and ), which are indicative of strong interactions between diglycine and MgCl2. Corresponding viscosity B-coefficients of transfer are also generally positive. The transfer functions decrease with increase in temperature and increase with the concentration of MgCl2. The free energies, enthalpies and entropies of activation for viscous flow of diglycine in aqueous MgCl2 solutions have been obtained by using the Feakins transition-state theory. Partial molar expansibilities and at infinite dilution along with their temperature dependence, the interaction coefficients from the volume, heat capacity, and viscosity B-coefficients have been used to divulge the various kinds of plausible interactions between solute (diglycine) and cosolute (MgCl2) in solutions. |
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Keywords: | Diglycine Magnesium chloride Apparent molar volumes Apparent molar heat capacities Viscosity Viscosity B-coefficients Gibbs free energy of activation Hydration numbers |
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