This review is led by Prof. Zhijie Chen’s group from Department of Chemistry at Zhejiang University. The authors provide an overview of recent progress in the development of Zr-MOFs. The authors summarize how reticular chemistry can be applied to the design, synthesis, and applications of some representative Zr-MOFs. Furthermore, the authors also provide an outlook on the future development of Zr-MOFs.
The authors first introduce reticular chemistry and how it can be applied to the rational design and synthesis of Zr-MOFs to achieve the targeted structure and/or properties. Synthetic strategies, including isoreticular expansion, linker functionalization, node functionalization, post-synthetic modification, and defect engineering, are then discussed in the context of applications. Finally, the authors provide perspectives on the future development of Zr-MOFs in terms of synthesis and application of multicomponent and multifunctional Zr-MOFs and their commercialization.
“Although advances have been achieved regarding the synthesis and functionalization of Zr-MOFs, opportunities still wait regarding the synthesis and applications of Zr-MOFs. For example, new design strategies (e.g., merged net, retrosynthesis) that allow the precise installation of functional groups into specific MOF structures should be further explored. In addition, regarding the practical application prospects of Zr- MOFs, more attention should be paid to emerging synthesis techniques, such as the slurry- and water-based synthesis and the synthesis via electrochemistry, mechanochemistry, and microwave approaches.” Chen says.
See the article:
Design, synthesis and applications of functional zirconium-based metal-organic frameworks
https://doi.org/10.1007/s11426-023-1809-8
Journal
Science China Chemistry