Conductometric, spectrophotometric and thermodynamic studies of nickel sulfate in aqueous polyvinyl alcohol + methanol systems at different temperatures

Abstract

The electrical conductance of nickel sulfate (NiSO 4 .6H 2 O) solutions in aqueous, aqueous polyvinyl alcohol (PVOH; 0.1, 0.5 and 0.9 g/dL), aqueous methanol (CH 3 OH) system (30%, v : v ) and aqueous PVOH+CH 3 OH systems were measured in the concentration ranges 0.4×10 -2 to 10×10 -2 mol/L, at different temperatures (298, 303, 308, 313 and 318 K). Ionic interactions of nickel sulfate in aqueous and mixed solvent systems were measured by conductometric analysis. Different relations were used to evaluate conductometric data, for the calculation of molar conductance, molar conductance at infinite dilution (Ʌ° m ), degree of dissociation ( a ), dissociation constant ( K d ) and Walden product. The increased in Ʌ° m values with the increase in percent composition of aqueous PVOH, show that PVOH interaction with solvents (water and methanol) was higher as compare to PVOH interaction with NiSO 4 . Solvent effect was also studied by spectrophotometric analysis of NiSO 4 in aqueous, aqueous PVOH and aqueous PVOH + CH 3 OH system. Thermodynamic parameters for dissociation process such as energy of activation ( E a # ), free energy change of activation (Δ G d # ), enthalpy change of activation (Δ H d # ), and entropy change of activation (Δ S d # ) were also calculated as a function of temperature and solvent composition.