Department of Chemical Sciences and, Bernal Institute, University of Limerick, Limerick, V94 T9PX, Republic of Ireland.
Small. 2021 Jun;17(22):e2006351. doi: 10.1002/smll.202006351. Epub 2021 Mar 10.
New approaches to gas/vapor storage and purification are urgently needed to address the large energy footprint, cost, and/or risk associated with existing technologies. In this context, new classes of porous physisorbents, exemplified by porous coordination networks (PCNs), have emerged. There are now >100 000 entries in the Cambridge Structural Database (CSD) metal-organic framework (MOF) subset and the rate of publication, >5000 per year, grows unabatedly. The number of PCNs makes it infeasible to test all of them for sorption performance and it is therefore timely to introduce a classification approach based upon taxonomy to supplement topological classification of PCNs. This taxonomic approach complements existing databases such as the CSD and enable the design (crystal engineering) of new families of PCNs. It also categorizes existing PCNs in a manner useful to crystal engineers. The internal consistency of the taxonomic approach is verified by case studies of several well-known PCNs whereas its utility is demonstrated upon understudied topologies and hard-to-rationalize infinite rod building blocks. Overall, taxonomic classification enables a traffic light system to direct crystal engineers towards finding a "needle in haystack," that is, a family (platform) of PCNs that is amenable to crystal engineering and systematic structure/property studies.
需要新的气体/蒸气存储和净化方法来解决现有技术相关的巨大能源足迹、成本和/或风险。在此背景下,新兴了一类多孔物理吸附剂,例如多孔配位网络(PCN)。剑桥结构数据库(CSD)金属有机骨架(MOF)子集中现在有超过 100,000 个条目,每年的出版率超过 5000 个,而且还在不断增加。PCN 的数量使得对所有 PCN 的吸附性能进行测试变得不可行,因此及时引入一种基于分类法的分类方法来补充 PCN 的拓扑分类是很有必要的。这种分类方法补充了现有的数据库,如 CSD,并能够设计新的 PCN 家族。它还以对晶体工程师有用的方式对现有的 PCN 进行分类。通过对几个知名 PCN 的案例研究验证了分类方法的内部一致性,而其效用则体现在对研究较少的拓扑结构和难以合理化的无限棒构建块上。总的来说,分类法使交通灯系统能够引导晶体工程师找到“大海捞针”,即一组(平台)易于晶体工程和系统结构/性能研究的 PCN。
