Abstract
Over the past decades, the need for rare earth elements (REEs) has increased substantially, mostly because these elements are used as valuable additives in advanced technologies. However, the difference in ionic radius between neighboring REEs is small, which renders an efficient sized‐based separation extremely challenging. Among different types of extraction methods, solid‐phase extraction (SPE) is a promising candidate, featuring high enrichment factor, rapid adsorption kinetics, reduced solvent consumption and minimized waste generation. The great challenge remains yet to develop highly efficient and selective adsorbents for this process. In this regard, ordered mesoporous materials (OMMs) possess high specific surface area, tunable pore size, large pore volume, as well as stable and interconnected frameworks with active pore surfaces for functionalization. Such features meet the requirements for enhanced adsorbents, not only providing huge reactional interface and large surface capable of accommodating guest species, but also enabling the possibility of ion‐specific binding for enrichment and separation purposes. This short personal account summarizes some of the recent advances in the use of porous hybrid materials as selective sorbents for REE separation and purification, with particular attention devoted to ordered mesoporous silica and carbon‐based sorbents.
Highlights
The rare earth elements (REEs), as defined by IUPAC, are a group of 17 elements including 15 lanthanides (Ln), scandium (Sc) and yttrium (Y)
Besides the complexation features resulting from the grafting of the ligands, the capacity and efficiency of the solid-phase extraction (SPE) systems is determined by the characteristics of the solid supports.[10,11]
In order to investigate the effect of the grafting procedure on the behavior of functionalized materials, the DGA ligand was grafted on KIT-6 silica either in a one-step (KIT-6-N-DGA-1) or a two-step (KIT-6-N-DGA-2) sequence (Figure 4a), while the commercial DGA-based resin was used as a reference
Summary
The rare earth elements (REEs), as defined by IUPAC, are a group of 17 elements including 15 lanthanides (Ln), scandium (Sc) and yttrium (Y). Besides the complexation features resulting from the grafting of the ligands, the capacity and efficiency of the SPE systems is determined by the characteristics of the solid supports (adsorbents).[10,11] In particular, ordered mesoporous materials (OMMs) (namely, ordered mesoporous MCM/SBA-type silica and carbons) possess high specific surface area, high pore volume, and anchoring sites that are available to covalently bind various organic ligands to the surface, yielding materials with high functionality, stability, and enhanced regeneration abilities.[12,13,14] This contribution highlights some of the recent progress achieved in the development of SPE
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