Abstract

A closed-cycle technology regarding the use of an exhausted Pd-based adsorbent as a photocatalyst in the degradation process of phenol is presented. Pd (II) represents a precious metal of great economic importance. Its obtained from natural sources become more difficult to achieve. Therefore, also considering the regulations of the “circular economy,” its recovery from secondary sources turn out to be a stringent issue in the last years. Pd(II) ions are removed from aqueous solution through adsorption onto Florisil (an inorganic solid support—magnesium silicate) impregnated with Cyphos IL 101 (trihexyl tetradecyl phosphonium chloride). It was observed that the presence of the ionic liquid (IL) in the adsorbent structure doubles the adsorption efficiency of the studied materials. The newly obtained Pd-based photocatalyst was exhaustively characterized and was used in the degradation process of phenol from aqueous solutions. The phenol degradation process was studied in terms of the nature of the photocatalyst used, time of photodegradation and solid: liquid ratio. It was observed that both the presence of IL and Pd lead to an increase in the efficiency of the phenol degradation process. The new Pd-based photocatalyst could be efficiently used in more cycles of phenol photodegradation processes. When is used as a photocatalyst the Florisil impregnated with IL and loaded with 2 mg/g of Pd, a degree of mineralization of 93.75% is obtained after 180 min of irradiation of a phenol solution having a concentration of 20 mg/L and using a solid:liquid ratio = 1:1.

Highlights

  • Palladium (Pd) is one of the precious metals of great economic importance

  • In order to respond to the European Union targets and to create benefits for the environment, economy and society and to respond to this frequently asked question in adsorption processes treatment, the aim of this paper is to study the possible use as a photocatalyst of an exhausted adsorbent from the removal process of Pd(II) ions from aqueous solutions

  • The Pd-based photocatalyst was obtained through Pd(II) adsorption from residual solution onto the Florisil impregnated with Cyphos ionic liquid (IL)-101

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Summary

Introduction

Palladium (Pd) is one of the precious metals of great economic importance. Due to its importance and the rare ore deposits which make a high price for this metal, it is essential to develop efficient recovery methods for this element, especially from water containing trace amounts of Pd. There are numerous methods for palladium recovery from different waste, such as solvent extraction [3,4,5], ion exchange [6,7,8], electrometallurgy [9] and adsorption [10,11,12]. From all the mentioned methods, adsorption proved to be the most efficient for the recovery of precious metals from aqueous solutions.

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