Abstract
Extractant-impregnated resins have potential for recovering platinum group metals selectively and efficiently. Herein, 1,3-bis(2-(octylthio)propan-2-yl)benzene (1), a pincer-type extractant, was impregnated in Amberlite XAD-7 resin (1-EIR), and the batch Pd(II) sorption conditions, including impregnated amount, shaking time, Pd(II) concentration, HCl concentration, and Pd(II) desorption reagents, were optimized. The maximum Pd(II) sorption capacity of 1-EIR was 49 mg g−1 after 24 h in a 700 ppm Pd(II) solution. Over 20 adsorption–desorption cycles, 1-EIR showed good reusability, with a sorption percentage (S%) of > 92%. However, not all Pd(II) was desorbed from 1-EIR. Complete Pd(II) collection was achieved by combining desorption with flaking of the Pd–extractant complex from Pd(II)-loaded 1-EIR by Soxhlet extraction, as ~ 13 mg g−1 remained after the 20th adsorption–desorption cycle by absorptiometric method. The sorption mechanism was elucidated based on the Langmuir isotherm model, thermodynamic parameters, and sorption kinetics. Pd(II) sorption by 1-EIR was spontaneous and endothermic, and the sorption kinetics followed a pseudo-second-order model. Notably, 1-EIR also exhibited high selectivity for Pd(II) from a simulated mixed metal solution and a spent automotive catalyst leachate (S% = 98% and > 99%, respectively). Thus, this extractant-impregnated system is promising for selective Pd(II) recovery from spent automotive catalysts and other secondary resources.
Highlights
The demand for Pd, a platinum group metal (PGM), is high because PGMs are essential for improving the performance of automotive catalysts to meet exhaust gas regulations[1]
We demonstrated that 1-Extractant-impregnated resins (EIRs), composed of pincer-type extractant 1 impregnated in Amberlite XAD-7 resin, possesses a high affinity towards Pd(II) in solutions of only Pd(II), in a simulated mixed metal solution, and in a spent automotive catalyst leachate
A sorption percentage (S%) of > 99% was achieved for Pd(II) sorption by 1-EIR in the spent automotive catalyst leachate containing 10 different metal ions, indicating the high Pd(II) selectivity of the developed EIR system
Summary
The demand for Pd, a platinum group metal (PGM), is high because PGMs are essential for improving the performance of automotive catalysts to meet exhaust gas regulations[1]. Highly selective and effective Pd(II) recovery from single Pd(II) solutions in acidic media (HCl, H NO3, or HCl/HNO3), solutions containing multiple metals, and leachates of automotive catalysts has been achieved using pincer-type extractant 1. Proton from the aromatic moiety of the ligand, which becomes a mono-anion species This SCS coordination to the metal ion results in high selectivity for Pd(II) from Pd(II)-containing solutions through liquid–liquid extraction. Liquid–liquid extraction is an effective method in hydrometallurgy for separating large amounts of metals, large volumes of organic solvent are required for extractant dilution, which poses a risk to humans and the environment in terms of toxicity and explosiveness. It is costly to implement new solvent extraction processes in industrial plants
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