Litcius/Paper detail

Closed-loop process for selective leaching and recovery of palladium from spent auto-exhaust catalysts using iodotrihalide ionic liquids

Xiaolu Yin, Jun Li, Xiaoxia Liu, Kaiqiang Huang, Yanzhao Yang

2024Journal of Hazardous Materials17 citationsDOIOpen Access PDF

Abstract

The recovery of palladium from spent auto-exhaust catalysts (SAE-catalysts) is of great significance for resource sustainability . Herein, we proposed an efficient closed-loop leaching and recovery method for palladium from SAE-catalysts using iodotrihalide ionic liquids (ILs). Recovery design was explored aimed at green leaching and process simplification. Iodotrihalide ILs exhibited exceptional performance in terms of leaching efficiency (99.1%), selectivity (selectivity > 6.8 ×10 3 ) and reusability (over 6 cycles). The mechanism study revealed that excellent leaching performance was attributed to the redox and complexation. Additionally, the chemical reaction-controlled model was best suited to describe the leaching process. Notably, under the optimal conditions determined by the response surface methodology , a high-purity Pd(II) solution (purity > 99.8%) was obtained. More significantly, it was ideal for practical applications due to the low-viscosity (36.0 cP), mild (55 °C) and one-step leaching and recovery. In conclusion, this work provides an eco-friendly method for recovering palladium from SAE-catalysts with its non-high corrosiveness and low environmental impact .

Topics & Concepts

Leaching (pedology)PalladiumCatalysisReusabilitySelectivityChemistryIonic liquidEnvironmentally friendlyInorganic chemistryChemical engineeringOrganic chemistryEnvironmental scienceComputer scienceEngineeringSoftwareEcologyBiologyProgramming languageSoil scienceSoil waterExtraction and Separation ProcessesIonic liquids properties and applicationsRadioactive element chemistry and processing