Journal of Colloid and Interface Science, Vol.454, 20-26, 2015
The role of metal ion-ligand interactions during divalent metal ion adsorption
A suite of seven different divalent metal ions (Ca(II), Cd(II), Cu(II), Mg(II), Ni(II), Pb(II), Zn(II)) was adsorbed from solution onto two Fe2O3 samples, quartz SiO2 and three different amphoteric polystyrene latices (containing amine and carboxyl functional groups). For the metal oxides, a high correlation was observed between the pH at which 50% of the metal was removed from solution (pH(50)) and the first hydrolysis constant for the metal ion (pK(1)). For the polystyrene latices, a much higher correlation was observed between the pH(50) and pK(c) (equilibrium constant describing metal-carboxyl affinity) as opposed to pK(1). These observations provide evidence of a strong relationship that exists between a metal's affinity for a particular ligand in solution and for that metal ion's affinity for the same ligand present as part of an adsorbing surface. The isoelectric point of the amphoteric latex surface can be increased by decreasing the carboxyl content of the latex surface. For all 7 metal ions, this resulted in a substantial decrease, for any given pH, in adsorption. We suggest that this may be partly due to the decreased carboxyl content, but is dominantly attributable to the presence of less favorable electrostatic conditions. This, in turn, demonstrates that electrostatics play a controlling role in metal ion adsorption onto amphoteric latex surfaces and, in addition to the nature of the metal ion, also controls the pH at which adsorption takes place. Crown Copyright (C) 2015 Published by Elsevier Inc. All rights reserved.