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W4387476629 abstract "Extended exposure to excessive fluoride-contaminated water causes irreversible damage to the ecosystem and the local inhabitants. In this study, three amyloid fibril hybrids, which were soy protein isolate amyloid fibril coated ZrO2 (ZrSAF), lysozyme amyloid fibril coated ZrO2 (ZrLAF), and bovine serum albumin amyloid fibril coated ZrO2 (ZrBAF), were prepared and the adsorption capacity and behavior were evaluated. ZrSAF, ZrLAF, and ZrBAF exhibited considerable fluoride removal capacity, with maximum adsorption capacities of 102.04, 78.12, and 90.09 mg/g, respectively. These hybrids demonstrated effective fluoride removal in a wide pH range of 3 to 10. In real wastewater experiments, amyloid fibrils hybrids still had about 89 % fluoride ions removal efficiency after five adsorption cycles. The secondary conformation of the proteins changed during material synthesis and fluoride adsorption, and a large amount of β-sheet enhanced adsorbent stability. The synergistic effects of amyloid fibril and ZrO2 were analyzed by spectroscopic analysis and molecular docking. The electrostatic interaction of the positively charged N atom at the end of the Lys amino acid side chain, the hydrogen bonding of amino acid residues at specific binding sites, and complexation played a key role in defluoridation process. This work revealed the great potential of protein-based nanomaterials as effective fluoride removal adsorbents." @default.
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W4387476629 date "2023-11-01" @default.
W4387476629 modified "2023-10-15" @default.
W4387476629 title "Fluoride adsorption studies on different amyloid fibrils hybrids: Spectroscopic analysis and molecular docking analysis" @default.
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W4387476629 doi "https://doi.org/10.1016/j.cej.2023.146561" @default.
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