Mobile Carrier Properties of N۲O۲- and N۳O۲-Type Schiff Base Molecules Towards Copper(II) Ions

Mobile carrier properties of two schiff base ligands, named bis(۲-hydroxypropiophenone)-۱,۲-propanediimine (N۲O۲) and bis(۱'-hydroxy-۲'-acetonaphthone)-۲,۲'-diiminodiethylamine (N۳O۲), dissolved in dichloromethane for the extraction of copper(II) ions from an ammonium buffer feed phase into a nitric acid solution (receiving phase) were investigated and compared. The parameters influencing the transport efficiency such as pH of the feed phase, chemical composition of the receiving phase, carrier concentration in the membrane and time dependency of the process were studied and discussed. Addition of sodium dodecysulfate (SDS), an anionic surfactant, to the receiving phase enhances significantly the process efficiency. This reveals that the transport is controlled by the kinetics of decomplexation at the stripping interface. The transported amount of copper ions from ammonium buffer (pH ۷) into the receiving phase including HNO۳ and SDS across a dichloromethane layer containing N۲O۲ and N۳O۲, at ۲۰ ºC, was found to be ۹۰.۶ (±۰.۷) % and ۹۷.۴ (±۰.۴) % after ۴ h, respectively. The selectivity of the processes towards copper ions were tested by performing the competitive transport experiments on the mixture containing Pb۲+, Ni۲+, Cd۲+, Zn۲+ and Co۲+ ions. Although N۳O۲ possess higher transport efficiency with respect to that of N۲O۲, both ligands present adequate selectivity for separation of Cu(II) ions.