Electronic Delocalization and σ-Aromaticity in Heterometallic Cluster with Multiple Thorium–Palladium Bonds
Weiming Sheng, Thayalan Rajeshkumar, Yue Zhao, Laurent Maron, Congqing Zhu
Abstract
Research on metal–metal bonds involving f-block actinides, such as thorium, lags far behind the well-studied metal–metal bonds of d-block transition metals. The complexes with Th–TM bonds are extremely rare; all previously identified examples have only a single Th–TM bond with the Th center at an invariably +IV oxidation state. Herein, we report a series of Th 2 Pd n ( n = 2, 3, and 6) clusters (complexes 3, 4, and 7 ) with multiple Th(III)–Pd bonds. Theoretical studies reveal that the Th 2 Pd n unit allows electronic delocalization and σ aromaticity, leading to unexpected closed-shell singlet structures for these Th(III) species. This electronic delocalization is evident in the highest occupied molecular orbital of Th(III) complexes and facilitates a 2e reduction of alkyne by complex 7, resulting in the formation of 8 . Complexes 7 and 8 are distinctive in featuring a Th 2 Pd 6 core with six and eight Th–Pd bonds, respectively, making them the largest known d–f heterometallic clusters exhibiting metal–metal bonding.