Study of (solute + solute) and (solute + solvent) interactions of homologous series of some α-amino acids in aqueous-streptomycin sulfate solutions at different temperatures by using physicochemical methods

•Study reports density, ultrasonic speed and viscosity data of α-amino acids in aqueous-streptomycin sulfate.•The study elucidates interactions of α-amino acids with streptomycin sulfate in aqueous media.•The study correlates physical properties of α-amino acids with their interactions in these solutions.

Densities, ρ, ultrasonic speeds, u, and viscosities, η of solutions of glycine/l-alanine/l-valine/l-isoleucine in water and aqueous-streptomycin sulfate {1% (0.0069 mol · kg−1) and 2% (0.0137 mol · kg−1) streptomycin sulfate in water} mixed solvents were measured at T (293.15, 298.15, 303.15, 308.15, 313.15, and 318.15) K and atmospheric pressure. From these experimental results, the apparent molar volume, VϕVϕ, limiting apparent molar volume, Vϕ° and the slope, Sv  , apparent molar compressibility, Ks,ϕKs,ϕ, limiting apparent molar compressibility, Ks,ϕ° and the slope, Sk  , transfer volume, Vϕ,tr°, transfer compressibility, Ks,ϕ,tr°, limiting apparent molar expansivity, Eϕ°, Falkenhagen Coefficient, A, Jones–Dole coefficient, B  , hydration number, nHnH, and temperature derivative of B-coefficient, dB/dT   were calculated. Also, the activation parameters such as the free energies of activation of viscous flow per mole of solvent, Δμ1°# and per mole of solute, Δμ2°#, were calculated and discussed in terms of transition state theory. The results are interpreted in terms of (solute + solvent) and (solute + solute) interactions in these systems. It has been observed that all these amino acids act as structure-breaker in aqueous-streptomycin sulfate solvents. In addition to this, Vϕ°, Ks,ϕ°, B   and Δμ2°# have been split into group contributions of the amino acids using linear correlation with number of carbon atoms in the alkyl chain of the amino acids.