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Developing organoboranes as phase transfer catalysts for nucleophilic fluorination using CsF

Despite the general high fluorophilicity of boron, organoboranes such as BEt(3) and 3,5-(CF(3))(2)C(6)H(3)–BPin are shown herein for the first time, to our knowledge, to be effective (solid to solution) phase-transfer catalysts for the fluorination of certain organohalides with CsF. Significant (up...

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Autores principales: Kirschner, Sven, Peters, Matthew, Yuan, Kang, Uzelac, Marina, Ingleson, Michael J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8890113/
https://www.ncbi.nlm.nih.gov/pubmed/35340859
http://dx.doi.org/10.1039/d2sc00303a
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author Kirschner, Sven
Peters, Matthew
Yuan, Kang
Uzelac, Marina
Ingleson, Michael J.
author_facet Kirschner, Sven
Peters, Matthew
Yuan, Kang
Uzelac, Marina
Ingleson, Michael J.
author_sort Kirschner, Sven
collection PubMed
description Despite the general high fluorophilicity of boron, organoboranes such as BEt(3) and 3,5-(CF(3))(2)C(6)H(3)–BPin are shown herein for the first time, to our knowledge, to be effective (solid to solution) phase-transfer catalysts for the fluorination of certain organohalides with CsF. Significant (up to 30% e.e.) chiral induction during nucleophilic fluorination to form β-fluoroamines using oxazaborolidine (pre)catalysts and CsF also can be achieved. Screening different boranes revealed a correlation between calculated fluoride affinity of the borane and nucleophilic fluorination reactivity, with sufficient fluoride affinity required for boranes to react with CsF and form Cs[fluoroborate] salts, but too high a fluoride affinity leading to fluoroborates that are poor at transferring fluoride to an electrophile. Fluoride affinity is only one component controlling reactivity in this context; effective fluorination also is dependent on the ligation of Cs(+) which effects both the phase transfer of CsF and the magnitude of the [Cs⋯F-BR(3)] interaction and thus the B–F bond strength. Effective ligation of Cs(+) (e.g. by [2.2.2]-cryptand) facilitates phase transfer of CsF by the borane but also weakens the Cs⋯F–B interaction which in turn strengthens the B–F bond – thus disfavouring fluoride transfer to an electrophile. Combined, these findings indicate that optimal borane mediated fluorination occurs using robust (to the fluorination conditions) boranes with fluoride affinity of ca. 105 kJ mol(−1) (relative to Me(3)Si(+)) under conditions where a signficant Cs⋯F–B interaction persists.
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spelling pubmed-88901132022-03-24 Developing organoboranes as phase transfer catalysts for nucleophilic fluorination using CsF Kirschner, Sven Peters, Matthew Yuan, Kang Uzelac, Marina Ingleson, Michael J. Chem Sci Chemistry Despite the general high fluorophilicity of boron, organoboranes such as BEt(3) and 3,5-(CF(3))(2)C(6)H(3)–BPin are shown herein for the first time, to our knowledge, to be effective (solid to solution) phase-transfer catalysts for the fluorination of certain organohalides with CsF. Significant (up to 30% e.e.) chiral induction during nucleophilic fluorination to form β-fluoroamines using oxazaborolidine (pre)catalysts and CsF also can be achieved. Screening different boranes revealed a correlation between calculated fluoride affinity of the borane and nucleophilic fluorination reactivity, with sufficient fluoride affinity required for boranes to react with CsF and form Cs[fluoroborate] salts, but too high a fluoride affinity leading to fluoroborates that are poor at transferring fluoride to an electrophile. Fluoride affinity is only one component controlling reactivity in this context; effective fluorination also is dependent on the ligation of Cs(+) which effects both the phase transfer of CsF and the magnitude of the [Cs⋯F-BR(3)] interaction and thus the B–F bond strength. Effective ligation of Cs(+) (e.g. by [2.2.2]-cryptand) facilitates phase transfer of CsF by the borane but also weakens the Cs⋯F–B interaction which in turn strengthens the B–F bond – thus disfavouring fluoride transfer to an electrophile. Combined, these findings indicate that optimal borane mediated fluorination occurs using robust (to the fluorination conditions) boranes with fluoride affinity of ca. 105 kJ mol(−1) (relative to Me(3)Si(+)) under conditions where a signficant Cs⋯F–B interaction persists. The Royal Society of Chemistry 2022-02-09 /pmc/articles/PMC8890113/ /pubmed/35340859 http://dx.doi.org/10.1039/d2sc00303a Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by/3.0/
spellingShingle Chemistry
Kirschner, Sven
Peters, Matthew
Yuan, Kang
Uzelac, Marina
Ingleson, Michael J.
Developing organoboranes as phase transfer catalysts for nucleophilic fluorination using CsF
title Developing organoboranes as phase transfer catalysts for nucleophilic fluorination using CsF
title_full Developing organoboranes as phase transfer catalysts for nucleophilic fluorination using CsF
title_fullStr Developing organoboranes as phase transfer catalysts for nucleophilic fluorination using CsF
title_full_unstemmed Developing organoboranes as phase transfer catalysts for nucleophilic fluorination using CsF
title_short Developing organoboranes as phase transfer catalysts for nucleophilic fluorination using CsF
title_sort developing organoboranes as phase transfer catalysts for nucleophilic fluorination using csf
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8890113/
https://www.ncbi.nlm.nih.gov/pubmed/35340859
http://dx.doi.org/10.1039/d2sc00303a
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