原材料
吸附
氨
材料科学
废水
化学工程
氨生产
环境友好型
扫描电子显微镜
生产成本
纳米技术
比表面积
过程(计算)
工艺工程
溶剂热合成
制作
打赌理论
化学
废物管理
绿色化学
最终产品
透射电子显微镜
作者
Shuo Yang,Qi Wang,Haoxin Xu,Yang Chen,Jinping Li,Libo Li
标识
DOI:10.1021/acssuschemeng.5c03837
摘要
Metal–organic frameworks (MOFs) exhibit significant practical application potential in various fields. However, their widespread application is often hindered by high cost and complicated synthesis procedures, such as the typical water-harvesting material MOF-303. Therefore, developing green, efficient, and cost-effective synthesis methods is essential to advance the application of such materials. In this work, we present a novel, efficient, and environmentally friendly synthesis method for MOF-303, achieved through ammonia and steam-assisted conversion. The resulting material exhibits excellent structural properties, including a high BET surface area of 1016 m2/g, making it well-suited for water adsorption. Powder X-ray diffraction confirms high crystallinity, and scanning electron microscopy reveals uniform rod-like crystals (1–3 μm). Importantly, the product exhibits a high water adsorption capacity of 0.43 g/g, comparable to that of conventionally synthesized MOF-303. This approach not only facilitates the solid-state growth of the MOFs but also eliminates waste liquid generation, significantly reducing the cost of wastewater treatment. The process is simple, easily controllable, and yields up to 91%. The cost of raw materials is significantly lower compared to the solvothermal synthesis. Furthermore, we have scaled up the synthesis using a laboratory-designed steam-assisted equipment, achieving a production capacity of MOF-303 at the hundred-gram level, marking an important step toward the industrial application of such materials.
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