Ru(II)Porphyrinate-based molecular nanoreactor for carbene insertion reactions and quantitative formation of rotaxanes by active-metal-template syntheses

Ru(II)Porphyrinate-based molecular nanoreactor for carbene insertion reactions and quantitative formation of rotaxanes by active-metal-template syntheses

Selectivity in N–H and S–H carbene insertion reactions promoted by Ru(II)porphyrinates currently requires slow addition of the diazo precursor and large excess of the primary amine and thiol substrates in the reaction medium. Such conditions are necessary to avoid the undesirable carbene coupling an...

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Bibliographic Details
Published in:Nature communications Vol. 11; no. 1; p. 6370
Main Authors: Fontana, Liniquer A., Almeida, Marlon P., Alcântara, Arthur F. P., Rigolin, Vitor H., Ribeiro, Marcos A., Barros, Wdeson P., Megiatto, Jackson D.
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 11-12-2020
Nature Publishing Group
Nature Portfolio
Subjects:
140/131
140/58
639/638
639/638/541/964
Asymmetry
Catalysis
Coupling (molecular)
Humanities and Social Sciences
Insertion
Ligands
multidisciplinary
Precursors
Rotaxanes
Science
Science (multidisciplinary)
Selectivity
Shielding
Stoichiometry
Substrates
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Summary:Selectivity in N–H and S–H carbene insertion reactions promoted by Ru(II)porphyrinates currently requires slow addition of the diazo precursor and large excess of the primary amine and thiol substrates in the reaction medium. Such conditions are necessary to avoid the undesirable carbene coupling and/or multiple carbene insertions. Here, the authors demonstrate that the synergy between the steric shielding provided by a Ru(II)porphyrinate-based macrocycle with a relatively small central cavity and the kinetic stabilization of otherwise labile coordinative bonds, warranted by formation of the mechanical bond, enables single carbene insertions to occur with quantitative efficiency and perfect selectivity even in the presence of a large excess of the diazo precursor and stoichiometric amounts of the primary amine and thiol substrates. As the Ru(II)porphyrinate-based macrocycle bears a confining nanospace and alters the product distribution of the carbene insertion reactions when compared to that of its acyclic version, the former therefore functions as a nanoreactor. Selectivity in carbene insertion reactions promoted by Ru(II)porphyrinates is achieved only upon careful control of substrate stoichiometry. Here, the authors demonstrate that endotopic catalysis and formation of mechanical bonds enables carbene insertions to occur selectively and in quantitative yield regardless of substrate stoichiometry.
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ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-020-20046-x