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Assembling a Heterobimetallic Actinide Metal‐Organic Framework by a Reaction‐Induced Preorganization Strategy

Sen Mei, Lixi Chen, Hailong Zhang, Zhiwei Li, Liwei Cheng, Junhao Lu, Xiaoqi Li, Qian Yang, Yanlong Wang, Zhiyong Liu, Zhifang Chai, Shuao Wang

2023Angewandte Chemie International Edition19 citationsDOIOpen Access PDF

Abstract

Periodically arranging coordination-distinct actinides into one crystalline architecture is intriguing but of great synthetic challenge. We report a rare example of a heterobimetallic actinide metal-organic framework (An-MOF) by a unique reaction-induced preorganization strategy. A thorium MOF (SCU-16) with the largest unit cell among all Th-MOFs was prepared as the precursor, then the uranyl was precisely embedded into the MOF precursor under oxidation condition. Single crystal of the resulting thorium-uranium MOF (SCU-16-U) shows that a uranyl-specific site was in situ induced by the formate-to-carbonate oxidation reaction. The heterobimetallic SCU-16-U exhibits multifunction catalysis properties derived from two distinct actinides. The strategy proposed here offers a new avenue to create mixed-actinide functional material with unique architecture and versatile functionality.

Topics & Concepts

ActinideUranylMetal-organic frameworkUraniumThoriumChemistryFormateCatalysisCombinatorial chemistryMaterials scienceInorganic chemistryPhysical chemistryOrganic chemistryAdsorptionMetallurgyRadioactive element chemistry and processingMetal-Organic Frameworks: Synthesis and Applications
Assembling a Heterobimetallic Actinide Metal‐Organic Framework by a Reaction‐Induced Preorganization Strategy | Litcius