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Spray-Drying Synthesis of MOFs, COFs, and Related Composites.
Accounts of Chemical Research ( IF 16.4 ) Pub Date : 2020-06-04 , DOI: 10.1021/acs.accounts.0c00133
Javier Troyano 1 , Ceren Çamur 1 , Luis Garzón-Tovar 1 , Arnau Carné-Sánchez 1 , Inhar Imaz 1 , Daniel Maspoch 1, 2
Affiliation  

Metal–organic frameworks (MOFs) and covalent organic frameworks (COFs) are among the most attractive porous materials today. They exhibit outstanding porosity for countless applications such as gas storage, CO2 capture, gas separation, sensing, drug delivery, and catalysis. Moreover, researchers have recently begun to combine MOFs or COFs with other functional materials to obtain composites that boast the respective strengths, and mitigate the respective weaknesses, of each component, enabling enhanced performance in many of the aforementioned applications. Accordingly, development of methods for fabrication of MOFs, COFs, and related composites is important for facilitating adoption of these materials in industry. One promising synthetic technique is spray-drying, which is already well-integrated in manufacturing processes for diverse sectors. It enables rapid, continuous and scalable production of dry microspherical powders in a single step, leading to lower fabrication costs and shorter production times compared to traditional methods.

中文翻译:

MOF,COF和相关复合材料的喷雾干燥合成。

金属有机框架(MOF)和共价有机框架(COF)是当今最具吸引力的多孔材料。它们具有出色的孔隙率,可用于无数种应用,例如气体存储,CO 2捕集,气体分离,传感,药物输送和催化。而且,研究人员最近已经开始将MOF或COF与其他功能材料组合以获得具有每种成分各自的优点并减轻各自的缺点的复合材料,从而能够在许多上述应用中提高性能。因此,开发用于制造MOF,COF和相关复合材料的方法对于促进这些材料在工业中的应用很重要。一种有前途的合成技术是喷雾干燥,它已经很好地集成到各个部门的制造过程中。与传统方法相比,它可以在一个步骤中快速,连续和可扩展地生产干燥的微球形粉末,从而降低了制造成本并缩短了生产时间。
更新日期:2020-06-04
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