阳离子聚合
机械化学
材料科学
离子键合
共价键
纳米技术
离子液体
单体
结晶度
化学工程
可扩展性
适应性
作者
Zhiwei Liu,Chenchen Zhu,Chuanying Liu,Xuyuan Jin,Chengliang Xiao
出处
期刊:Small
[Wiley]
日期:2025-10-14
卷期号:21 (48): e09557-e09557
标识
DOI:10.1002/smll.202509557
摘要
Although emerging ionic covalent organic frameworks (COFs) offer structural adaptability and diverse functionality, their synthesis is still limited by a few compatible reactions, scarce monomer options, scalability challenges, and sustainability demands. Herein, a mechanochemical approach is reported to construct crystalline cationic graphitic triazine-imidazolium frameworks through nucleophilic aromatic substitution, utilizing low-cost industrial feedstocks. This solvent-free strategy enables rapid and scalable assembly of cationic frameworks with graphite-like crystallinity and varying interlayer spacing. The resulting materials demonstrate tunable optical properties and excellent iodine capture performance, with cost-effectiveness analyses proving their real-world viability. The breakthrough methodology expands the synthetic toolbox for ionic COFs and pioneers mechanochemistry as a green approach in developing charged framework materials.
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