Intercepting Methanimine for the Synthesis of Piperidine-Based N-Heterocycles in an Aqueous Medium

Emily Pocock; Martin Diefenbach; Thomas M. Hood; Michael Nunn; Vera Krewald; Simon E. Lewis; Ruth L. Webster

doi:10.1021/acs.joc.5c01213

Intercepting Methanimine for the Synthesis of Piperidine-Based N-Heterocycles in an Aqueous Medium

Emily Pocock, Martin Diefenbach, Thomas M. Hood, Michael Nunn, Vera Krewald, Simon E. Lewis, Ruth L. Webster

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Abstract

We herein present an investigation into whether simple methodology could be used to intercept the highly reactive interstellar molecule methanimine. The use of an in situ aza-Diels–Alder reaction to trap out methanimine as simple piperidine-based N-heterocycles was explored. Subsequent investigations into alternative dienes revealed that the steric and electronic nature of the diene had a great effect on its effectiveness in trapping methanimine. While the yields of the resultant N-heterocycles are modest, the products formed are novel yet structurally simple and could be envisioned to be highly synthetically useful building blocks for further transformations. We also explored simple protecting groups that could be used to access a methanimine adduct as a discrete synthon, but density functional theory calculations indicated that cyclotrimerization, and thus deactivation, was likely.

Original language	English
Pages (from-to)	11257-11263
Number of pages	7
Journal	Journal of Organic Chemistry
Volume	90
Issue number	31
Early online date	26 Jul 2025
DOIs	https://doi.org/10.1021/acs.joc.5c01213
Publication status	Published - 8 Aug 2025

Data Availability Statement

The data underlying this study are available in the published
article and its Supporting Information.

Funding

Calculations for this research were conducted on the Lichtenberg high-performance computer of the TU Darmstadt. This research was supported through an iCASE PhD studentship (AstraZeneca/EPSRC) awarded to E.P. and a Leverhulme Trust Research Project Grant awarded to M.D. T.M.H., V.K., and R.L.W. (RPG-2020-313). R.L.W. thanks the Yusuf Hamied Department of Chemistry for the provision of start-up funds.

ASJC Scopus subject areas

Organic Chemistry

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Cite this

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abstract = "We herein present an investigation into whether simple methodology could be used to intercept the highly reactive interstellar molecule methanimine. The use of an in situ aza-Diels–Alder reaction to trap out methanimine as simple piperidine-based N-heterocycles was explored. Subsequent investigations into alternative dienes revealed that the steric and electronic nature of the diene had a great effect on its effectiveness in trapping methanimine. While the yields of the resultant N-heterocycles are modest, the products formed are novel yet structurally simple and could be envisioned to be highly synthetically useful building blocks for further transformations. We also explored simple protecting groups that could be used to access a methanimine adduct as a discrete synthon, but density functional theory calculations indicated that cyclotrimerization, and thus deactivation, was likely.",

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AU - Pocock, Emily

AU - Diefenbach, Martin

AU - Hood, Thomas M.

AU - Nunn, Michael

AU - Krewald, Vera

AU - Lewis, Simon E.

AU - Webster, Ruth L.

PY - 2025/8/8

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AB - We herein present an investigation into whether simple methodology could be used to intercept the highly reactive interstellar molecule methanimine. The use of an in situ aza-Diels–Alder reaction to trap out methanimine as simple piperidine-based N-heterocycles was explored. Subsequent investigations into alternative dienes revealed that the steric and electronic nature of the diene had a great effect on its effectiveness in trapping methanimine. While the yields of the resultant N-heterocycles are modest, the products formed are novel yet structurally simple and could be envisioned to be highly synthetically useful building blocks for further transformations. We also explored simple protecting groups that could be used to access a methanimine adduct as a discrete synthon, but density functional theory calculations indicated that cyclotrimerization, and thus deactivation, was likely.

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Intercepting Methanimine for the Synthesis of Piperidine-Based N-Heterocycles in an Aqueous Medium

Abstract

Data Availability Statement

Funding

ASJC Scopus subject areas

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