Reticular Synthesis of High-Connectivity Metal–Organic Frameworks with Kuratowski-Type Building Blocks
Liang Gu, Zhangyi Xiong, Yuanlong Zhong, Zhijie Chen
Abstract
Metal–organic frameworks (MOFs) with Kuratowski-type Zn 5 building blocks represent a class of materials with interesting properties. However, most single-crystalline Zn 5 -benzotriazolate-based MOFs are based on ditopic ligands, significantly limiting the spatial arrangement of these nodes within frameworks and therefore restricting functionalities. Herein, we applied state-of-the-art reticular chemistry to the rational assembly of hexatopic benzotriazolate ligands and Kuratowski-type Zn 5 nodes into a high-connectivity single-crystalline MOF, Zn-Tz 6 Mes. Zn-Tz 6 Mes exhibits the rare node-morphing nia - derived tsb net. Subsequent postsynthetic modification of Zn-Tz 6 Mes introduced open Cu(I) sites, yielding Cu I -Zn-Tz 6 Mes. Cu I -Zn-Tz 6 Mes displays markedly enhanced binding affinities toward π-acidic gases such as H 2 and N 2, in comparison to the parent Zn-Tz 6 Mes. This work allows the reticular arrangement of Kuratowski-type building blocks within framework crystals with controllable structures and fine-tuned functionalities, paving the way for unlocking the unlimited potential of Kuratowski-type clusters in designed porous materials.