Molecularly Engineered Aza-Crown Ether Functionalized Sodium Alginate Aerogels for Highly Selective and Sustainable Cu2+ Removal
Teng Long, Ayoub El Idrissi, Lin Fu, Yufan Liu, Banlian Ruan, Minghong Ma, Zhongxun Li, Lingbin Lu

TL;DR
A new type of biopolymer aerogel is developed for highly selective and sustainable removal of copper ions from water.
Contribution
A green synthesis method creates aza-crown ether functionalized sodium alginate aerogels with precise Cu2+ selectivity and reusability.
Findings
ACSA aerogels showed a Langmuir maximum adsorption capacity of 150.82 mg·g−1 for Cu2+.
The material retained over 80% adsorption capacity after four regeneration cycles.
Cu2+ selectivity arises from ionic radius alignment and N/O chelation within the aza-crown ether framework.
Abstract
Developing sustainable and molecularly selective adsorbents for heavy-metal removal remains a critical challenge in water purification. Herein, we report a green molecular-engineering approach for fabricating aza-crown ether functionalized sodium alginate aerogels (ACSA) capable of highly selective Cu2+ capture. The aerogels were synthesized via saccharide-ring oxidation, Cu2+-templated self-assembly, and reductive amination, enabling the covalent integration of aza-crown ether motifs within a hierarchically porous biopolymer matrix. Structural analyses (FTIR, 13C NMR, XPS, SEM, TGA) confirmed the in situ formation of macrocyclic N/O coordination sites. Owing to their interconnected porosity and chemically stable framework, ACSA exhibited rapid sorption kinetics following a pseudo-second-order model (R2 = 0.999) and a Langmuir maximum adsorption capacity of 150.82 mg·g−1. The material…
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Taxonomy
TopicsAdsorption and biosorption for pollutant removal · Layered Double Hydroxides Synthesis and Applications · Metal-Organic Frameworks: Synthesis and Applications
