Issue 8, 2024

sp2–sp cross-carbanion coupling at a rare-earth center leading to the formation of carbon–carbon double bonds

Abstract

In contrast to transition metals, rare-earth metal-promoted sp2–sp carbon–carbon coupling through reductive elimination cannot be realized due to the inaccessibility of two-electron metal-based redox couples. Herein, we report that sp2–sp cross-carbanion coupling has been realized in the reaction of rare-earth azametallacyclopentadienes 2 with alkyl and aryl terminal alkynes. The reaction of 2, which are in situ generated from rare-earth metallacyclopropenes 1 and nitriles, with terminal alkynes provides a new class of seven-membered rare-earth metallacycles 3 containing cumulated double bonds. The structures of complexes 3 have been fully characterized. Mechanistic studies using DFT calculations and principal interacting orbital (PIO) analysis reveal that the formation of 3 proceeds through three steps: activation of the alkynyl C–H bond in terminal alkynes, followed by sp2–sp cross-carbanion coupling and subsequent propargyl-to-allenyl isomerization to form a new C–C double bond, providing metallacycles 3.

Graphical abstract: sp2–sp cross-carbanion coupling at a rare-earth center leading to the formation of carbon–carbon double bonds

Supplementary files

Article information

Article type
Research Article
Submitted
19 Jan 2024
Accepted
17 Mar 2024
First published
18 Mar 2024

Inorg. Chem. Front., 2024,11, 2312-2318

sp2–sp cross-carbanion coupling at a rare-earth center leading to the formation of carbon–carbon double bonds

Z. Chai, Z. Lv, W. Liu, J. Yang, J. Wei and W. Zhang, Inorg. Chem. Front., 2024, 11, 2312 DOI: 10.1039/D4QI00178H

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