Combined cation-exchange and solid phase extraction for the selective separation and preconcentration of zinc, copper, cadmium, mercury and cobalt among others using azo-dye functionalized resin

摘要

A facile synthesis of an ion exchange material (FSG-PAN) has been achieved by functionalizing silica gel with an azo-dye. Its composition and structure are well assessed by systematic analysis. Extractor possesses high BET surface area (617.794 m(2) g(-1)), exchange capacity and break-through capacity (BTC) (Q(0) Zn(II): 225; Cd(II): 918; Hg(II): 384, Cu(II): 269 and Co(II): 388 mu M g(-1)). The sorption process was endothermic (+Delta H), entropy-gaining (+Delta S) and spontaneous (-Delta G) in nature. Preconcentration factor has been optimized at 172(Zn(II)); 157.2(Cd(II)); 193.6(Hg(II)); 176(Cu(II)); 172.4(Co(II)). Density functional theory calculation has been performed to analyze the sorption pathway. BTC (mu M g(-1)) of FSG-PAN was found to be the product of its frontier orbitals and state of sorbed metal ion species, x (at x=1, mononuclear and x>1, a polynuclear species; i.e., BTC = [amount of HOMO] x x). FSG-PAN is used for the selective separation and preconcentration of Zn(II), Cd(II), Hg(II), Cu(II),Co(II) from large volume sample (800 mL) of low concentration (0.017-0.40 mM L-1) in presence of foreign ions (50-300 mM L-1) at optimum conditions (pH: 7.0 +/- 1.5, flow rate: 2.5 mL min(-1), temperature: 27 degrees C, equilibration-time: 5 min). The method was found to be effective for real samples also. (C) 2016 Elsevier B.V. All rights reserved.