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Recent advances in heterometallic clusters with f-block metal–metal bonds: synthesis, reactivity and applications

Wei Fang, Qin Zhu, Congqing Zhu

2022Chemical Society Reviews46 citationsDOI

Abstract

Due to the heterometallic synergistic effects from different metals, heterometallic clusters are of great importance in small-molecule activation and catalysis. For example, both biological nitrogen fixation and photosynthetic splitting of water into oxygen are thought to involve multimetallic catalytic sites with d-block transition metals. Benefitting from the larger coordination numbers of f-block metals (rare-earth metals and actinide elements), heterometallic clusters containing f-block metal-metal bonds have long attracted the interest of both experimental and theoretical chemists. Therefore, a series of effective strategies or platforms have been developed in recent years for the construction of heterometallic clusters with f-block metal-metal bonds. More importantly, synergistic effects between f-block metals and transition metals have been observed in small-molecule activation and catalysis. This tutorial review highlights the recent advances in the construction of heterometallic molecular clusters with f-block metal-metal bonds and also their reactivities and applications. It is hoped that this tutorial review will persuade chemists to develop more efficient strategies to construct clusters with f-block metal-metal bonds and also further expand their applications with heterometallic synergistic effects.

Topics & Concepts

Reactivity (psychology)MetalBlock (permutation group theory)ChemistryCombinatorial chemistryNanotechnologyMaterials scienceComputational chemistryOrganic chemistryPathologyAlternative medicineMathematicsGeometryMedicineOrganometallic Complex Synthesis and CatalysisInorganic Chemistry and MaterialsMagnetism in coordination complexes
Recent advances in heterometallic clusters with f-block metal–metal bonds: synthesis, reactivity and applications | Litcius