Conductive Flow Parameters of Mixed Nonionic Surfactants Microemulsions

This article focuses on the electrical conductivity study of the brine solution/sucrose laurate/ethoxylated mono-di-glyceride/oil + ethanol system. The oils were R (+)-limonene, isopropylmyristate and caprylic-capric triglyceride. The mixing ratio (w/w) of ethanol/oil and that of sucrose laurate/ethoxylated mono-di-glyceride equal unity. The brine solution was 0.01 M aqueous sodium chloride solution. No observable effect was observed on the phase boundaries by replacing pure water with brine solution in the case of R (+)-limonene based microemulsions. In the systems based on isopropylmyristate and caprylic-capric triglyceride, the replacement of pure water by brine significantly affected the phase boundaries, the microemulsion region shrink and the total monophasic area of microemulsions decreased. Electrical conductivity increases with the increase in the water volume fraction and percolation thresholds were observed. The critical volume fractions where the percolation thresholds appear depend on the type of oil used in the microemulsion formulation. Electrical conductivity was measured at different temperatures and the activation energy of conduction flow was evaluated. At the percolation threshold the activation energy of conduction flow reaches a minimum value. Beyond the percolation threshold, a small increase is observed in the activation energy of conduction flow then it decreases with the increase in the water volume fraction indicating structural transitions.