Oxidative Addition of a Mechanically Entrapped C(sp)–C(sp) Bond to a Rhodium(I) Pincer Complex

Baptiste Leforestier; Matthew R. Gyton; Adrian B. Chaplin

Journal ArticleOPEN ACCESS

Oxidative Addition of a Mechanically Entrapped C(sp)–C(sp) Bond to a Rhodium(I) Pincer Complex

Leforestier B
Gyton M
Chaplin A

Angewandte Chemie - International Edition (2020) 59(52) 23500-23504

DOI: 10.1002/anie.202009546

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Abstract

By use of a macrocyclic phosphinite pincer ligand and bulky substrate substituents, we demonstrate how the mechanical bond can be leveraged to promote the oxidative addition of an interlocked 1,3-diyne to a rhodium(I) center. The resulting rhodium(III) bis(alkynyl) product can be trapped out by reaction with carbon monoxide or intercepted through irreversible reaction with dihydrogen, resulting in selective hydrogenolysis of the C−C σ-bond.

Author supplied keywords

C−C activation
macrocyclic ligands
pincer ligands
rhodium
rotaxanes

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APA

Leforestier, B., Gyton, M. R., & Chaplin, A. B. (2020). Oxidative Addition of a Mechanically Entrapped C(sp)–C(sp) Bond to a Rhodium(I) Pincer Complex. Angewandte Chemie - International Edition, 59(52), 23500–23504. https://doi.org/10.1002/anie.202009546

Oxidative Addition of a Mechanically Entrapped C(sp)–C(sp) Bond to a Rhodium(I) Pincer Complex

Abstract

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