Tuning La–O adsorption sites dispersion via hydrogen bond-capping organic–inorganic copolymerization strategy for enhanced phosphate removal

Abstract

Lanthanum (La) (oxy)hydroxides are promising adsorbents for efficient aqueous phosphate (P) removal. The incorporation of cationic hydrogel with La hydroxides represents an effective strategy to improve the dispersion of La–O active sites thereby favoring P adsorption. In this study, a hydrogen (H) bond-capping via organic–inorganic copolymerization strategy was developed for enhancing the dispersion of La–O active sites. This approach significantly enhanced the adsorption capacity of La hydroxide oligomer (LHO) copolymerized cationic hydrogel (LaCCH) to 308.2 mgP gLa−1. Fixed-bed experiments demonstrated that LaCCH effectively treated over 1098 bed volumes (BV) of synthetic wastewater (1.0 mgP L−1) containing co-existing ions. Combined analyses using FTIR, Raman, and XPS confirmed that the inner-sphere complexation and formation of LaPO4·0.5H2O were crucial to P adsorption. The results of MD simulation implied the weaker intermolecular H bonding between [La(OH)3] in LaCCH results in a more favorable interaction between [La(OH)3] and the hydrogel carbon chain. In summary, copolymerization significantly improved the dispersion of La–O active sites, which enhanced P adsorption and demonstrated a strong correlation between the fractal dimension of dispersion and adsorption capacity.

Graphical abstract: Tuning La–O adsorption sites dispersion via hydrogen bond-capping organic–inorganic copolymerization strategy for enhanced phosphate removal

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Article information

Article type
Paper
Submitted
30 avq 2024
Accepted
21 okt 2024
First published
21 okt 2024

Environ. Sci.: Nano, 2025, Advance Article

Tuning La–O adsorption sites dispersion via hydrogen bond-capping organic–inorganic copolymerization strategy for enhanced phosphate removal

F. Xiao, Y. Li, S. Wang, J. Zhang, J. H. Pan, D. Yuan, S. Dong and Y. Wang, Environ. Sci.: Nano, 2025, Advance Article , DOI: 10.1039/D4EN00791C

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