材料科学
三嗪
埃
共价键
膜
氮气
纳米技术
有机化学
高分子化学
结晶学
化学
生物化学
作者
Cuijing Liu,Lei Li,Xu Yu,Jinhui Zhang,Xihong He,Linbo Li,Lianshan Li
标识
DOI:10.1021/acsami.5c01495
摘要
Membranes tailored for selective H+ transfer are highly demanded in various fields such as acid recovery and proton exchange membranes. Emerging framework materials featuring permanent micropores present more competitive selectivity than traditional polymeric membranes. However, it remains challenging to construct angstrom channels for more precise ion separations. Herein, we demonstrate the modulation of the nitrogen-rich angstrom channels within a covalent triazine framework (CTF) membrane by a mix-monomer copolymerization strategy, in which one monomer provides defect-free angstrom channels and another offers plentiful nitrogen sites. The abundant nitrogen sites with strong affinity for H+ facilitate fast H+ diffusion, and their high protonation level in acid solution imparts positive charge, enabling efficient Fe2+ retention via Donnan exclusion. The optimized CTF membrane achieves a H+ dialysis coefficient of 1.5 × 10-3 m/h and a separation factor of 11,242 for H+/Fe2+ mixtures. The ion selectivity outperforms most reported membranes benefiting from its highly confined channels. Additionally, the robust stability of the triazine groups guarantees consecutive operation in aggressive acidic solutions. This work presents an effective approach for modulating proton transport efficiency through membranes and its potential applications in acid recovery.
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