C–O Bond Activation in Mononuclear Lanthanide Oxocarbonyl Complexes OLn(η2‑CO) (Ln = La, Ce, Pr, and Nd)

Fundamental investigation of metal–CO interactions is of great importance for the development of high-performance catalysts to CO activation. Herein, a series of side-on bonded mononuclear lanthanide (Ln) oxocarbonyl complexes OLn­(η2-CO) (Ln = La, Ce, Pr, and Nd) have been prepared and identified i...

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Published in:Inorganic chemistry 2023-01, Vol.62 (1), p.363-371
Main Authors: Pu, Zhen, Qin, Jianwei, Fu, Xiaoguo, Qiu, Ruizhi, Su, Bin, Shuai, Maobing, Li, Fang
Format: Article
Language:English
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Summary:Fundamental investigation of metal–CO interactions is of great importance for the development of high-performance catalysts to CO activation. Herein, a series of side-on bonded mononuclear lanthanide (Ln) oxocarbonyl complexes OLn­(η2-CO) (Ln = La, Ce, Pr, and Nd) have been prepared and identified in solid argon matrices. The complexes exhibit uncommonly low C–O stretching bands near 1630 cm–1, indicating remarkable C–O bond activation in these Ln analogues. The η2-CO ligand in OLn­(η2-CO) can be claimed as an anion on the basis of the experimental observations and quantum chemistry investigations, although the CO anion is commonly considered to be unstable with electron auto-detachment. The CO activation in OLn­(η2-CO) is attributed to the photoinduced intramolecular charge transfer from LnO to CO rather than the generally accepted metal → CO π back-donation, which conforms to the traditional Dewar–Chatt–Duncanson motif. Energy decomposition analysis combined with natural orbitals for chemical valence calculations demonstrates that the bonding between LnO and η2-CO arises from the combination of dominant ionic forces (>76%) and normal Lewis “acid–base” interactions. The fundamental findings provide guidelines for the catalyst design of CO activation.
ISSN:0020-1669
1520-510X
DOI:10.1021/acs.inorgchem.2c03452