Nature Communications (Oct 2023)

Actinide-lanthanide single electron metal-metal bond formed in mixed-valence di-metallofullerenes

  • Yingjing Yan,
  • Laura Abella,
  • Rong Sun,
  • Yu-Hui Fang,
  • Yannick Roselló,
  • Yi Shen,
  • Meihe Jin,
  • Antonio Rodríguez-Fortea,
  • Coen de Graaf,
  • Qingyu Meng,
  • Yang-Rong Yao,
  • Luis Echegoyen,
  • Bing-Wu Wang,
  • Song Gao,
  • Josep M. Poblet,
  • Ning Chen

DOI
https://doi.org/10.1038/s41467-023-42165-x
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 10

Abstract

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Abstract Understanding metal-metal bonding involving f-block elements has been a challenging goal in chemistry. Here we report a series of mixed-valence di-metallofullerenes, ThDy@C2n (2n = 72, 76, 78, and 80) and ThY@C2n (2n = 72 and 78), which feature single electron actinide-lanthanide metal-metal bonds, characterized by structural, spectroscopic and computational methods. Crystallographic characterization unambiguously confirmed that Th and Y or Dy are encapsulated inside variably sized fullerene carbon cages. The ESR study of ThY@D 3h (5)-C78 shows a doublet as expected for an unpaired electron interacting with Y, and a SQUID magnetometric study of ThDy@D 3h (5)-C78 reveals a high-spin ground state for the whole molecule. Theoretical studies further confirm the presence of a single-electron bonding interaction between Y or Dy and Th, due to a significant overlap between hybrid spd orbitals of the two metals.