Modulating the reaction pathway of phenyl diazonium ions using host–guest complexation with cucurbit[7]uril

Moorthy, Suresh; Castillo, Bonillo Alvaro; Lambert, Hugues; Kalenius, Elina; Lee, Tung-Chun

doi:10.1039/d1cc06982a

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Moorthy, S., Castillo, B. A., Lambert, H., Kalenius, E., & Lee, T.-C. (2022). Modulating the reaction pathway of phenyl diazonium ions using host–guest complexation with cucurbit[7]uril. Chemical Communications, 58(22), 3617-3620. https://doi.org/10.1039/d1cc06982a

Julkaistu sarjassa

Chemical Communications

Tekijät

Moorthy, Suresh |

Castillo, Bonillo Alvaro |

Lambert, Hugues |

Kalenius, Elina |

Lee, Tung-Chun

Päivämäärä

2022

Oppiaine

Orgaaninen kemia Analyyttinen kemia Nanoscience Center Organic Chemistry Analytical Chemistry Nanoscience Center

Tekijänoikeudet

Aryl diazonium ions are known to be an important intermediate in the divergent synthesis of azo compounds and substituted aromatics. The presence of more than one electrophilic center in a diazonium ion could lead to undesirable side reactions during a synthesis. Herein, we report that the electrophilic α-carbon on a phenyl diazonium [PhN2]+ ion can be selectively deactivated upon host–guest complexation with cucurbit[7]uril (CB7) in aqueous media, achieving a ∼60-fold increase in the half-life of [PhN2]+. Notably, however, the electrophilic nitrogen of the encapsulated diazonium ion remains active towards diazo coupling with strong nucleophiles, allowing the formation of azo compounds using a two-month-old aqueous solution of [CB7–PhN2]+. Our supramolecular approach can open new possibilities for the reactive chemistry of organic molecules in aqueous media.

Julkaisija

Royal Society of Chemistry (RSC)

ISSN Hae Julkaisufoorumista

1359-7345

Lisätietoja rahoituksesta

This work is funded by the Leverhulme Trust (RPG-2016-393). A. C. B. is grateful to the A*STAR-UCL Studentship funded via the EPSRC M3S CDT (EP/L015862/1). We acknowledge the use of the UCL Myriad high performance computing facility, and the UK Materials and Molecular Modelling Hub, which are partially funded by EPSRC (EP/P020194/1).

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