A Rapid Injection NMR Study of the Reaction of Organolithium Reagents with Esters, Amides, and Ketones | Zendy

Kristin Plessel | Zendy; Amanda C. Jones | Zendy; Daniel Wherritt | Zendy; Rebecca M. Maksymowicz | Zendy; EricT. Poweleit | Zendy; Hans J. Reich | Zendy

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A Rapid Injection NMR Study of the Reaction of Organolithium Reagents with Esters, Amides, and Ketones

Author(s) -

Kristin Plessel,

Amanda C. Jones,

Daniel Wherritt,

Rebecca M. Maksymowicz,

EricT. Poweleit,

Hans J. Reich

Publication year - 2015

Publication title -

organic letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.94

H-Index - 239

eISSN - 1523-7060

pISSN - 1523-7052

DOI - 10.1021/acs.orglett.5b00650

Subject(s) - chemistry , dimer , monomer , reagent , reactive intermediate , organic chemistry , medicinal chemistry , polymer , catalysis

Unexpectedly high rates of reaction between alkyllithium reagents and amides, compared to esters and ketones, were observed by Rapid Inject NMR and competition experiments. Spectroscopic investigations with 4-fluorophenyllithium (ArLi, mixture of monomer and dimer in THF) and a benzoate ester identified two reactive intermediates, a homodimer of the tetrahedral intermediate, stable below -100 °C, and a mixed dimer with ArLi. Direct formation of dimers suggested that the ArLi dimer may be the reactive aggregate rather than the usually more reactive monomer. In contrast, RINMR experiments with ketones demonstrated that the ArLi monomer was the reactive species.

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