Abstract
Design and fabrication of versatile adsorbents for universal water purification following green chemistry principles remain challenging. Here, it is shown that amyloid fibrils from protein waste can be used as a functional scaffold for metal organic framework (MOF) biomimetic mineralization. The resulting amyloid fibrils/ZIF-8 hybrid aerogels can effectively remove nine different heavy metal ions from water due to their hierarchical porous structure. Importantly, amyloid fibrils/ZIF-8 hybrid aerogels can efficiently remove Hg2+ and Pb2+ from water over five consecutive adsorption-regeneration cycles. Furthermore, a dual removal pathway of adsorption and catalytic degradation is observed in the synthetic dyes, indicating that the aerogel preserves its porous nature and maintains the integrity of versatile functional ligands within ZIF-8. Finally, it is shown that these hybrid aerogels can also perform successfully in oil-water separation. Considering the facile synthesis procedure, high removal efficiency, affordable cost, and regeneration possibilities, the amyloid fibrils/ZIF-8 hybrid aerogel stands as an ideal candidate for addressing open challenges in wastewater treatment and water purification.
Highlights
This page was generated automatically upon download from the ETH Zurich Research Collection
Considering the facile synthesis proonstrated the outstanding capability of cedure, high removal efficiency, affordable cost, and regeneration possibilities, the amyloid fibrils/zeolitic imidazolate framework-8 (ZIF-8) hybrid aerogel stands as an ideal candidate for addressing open challenges in wastewater treatment and water purification
The amyloid fibrils matrix was used as a template for the in situ synthesis of the metal organic framework (MOF) zeolitic imidazolate framework-8 (ZIF-8)
Summary
This page was generated automatically upon download from the ETH Zurich Research Collection. The resulting amyloid fibrils/ZIF-8 hybrid aerogels can effectively remove nine different heavy metal ions from water due to their hierarchical porous structure.
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