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Article Abstract
Developing sustainable difunctional materials that allow for selective visual detection and efficient removal of rare earth elements ions (REE) is crucial for fostering an eco-friendly economy and protecting the environment. However, achieving both dual functionalities represents a significant challenge. In this work, we fabricated a unique hydrogel bead (DPA/GB) characterized by a high density of carboxyl groups and pyridine nitrogen atoms, through the hybridization of dipicolinic acid (DPA) and sodium alginate (SA) with calcium as a cross-linker. Notably, the cost of DPA/GB is only USD 0.25 per gram. The resulting bead exhibited fluorescence turn-on capability and on-site detection for terbium (Tb) and europium (Eu), with exceptional anti-interference ability. Furthermore, their limits of detection (LOD) were determined to be 0.23 and 0.85 nM over a wide concentration range of 0.2-1000/6-600 μM for Tb/Eu. DPA/GB demonstrated a higher adsorption capacity for Tb (270 mg/g) and Eu (301 mg/g) at pH = 5.02. Infrared spectroscopy, X-ray photoelectron spectroscopy, thermogravimetric analysis, and energy-dispersive spectroscopic analysis were performed to gain insight into the underlying mechanisms. These studies confirmed the synergistic effects of complexation, electrostatic interaction, and ion exchange between Tb/Eu and DPA/GB. This work presents an innovative and viable approach for the luminescence detection and efficient adsorption of Tb/Eu in water. HYPOTHESIS STATEMENT: Alginate-based sustainable materials modified by the non-covalent assembly strategy facilitate the visual detection and efficient adsorption of terbium and europium ions simultaneously, aiming to advance the development of polysaccharide-based multifunctional adsorbent materials.
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| http://dx.doi.org/10.1016/j.carbpol.2025.123258 | DOI Listing |
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