Continuous N-alkylation reactions of amino alcohols using γ-Al2O3 and supercritical CO2: Unexpected formation of cyclic ureas and urethanes by reaction with CO2

Emilia S. Streng; Darren S. Lee; Michael W. George; Martyn Poliakoff

doi:10.3762/bjoc.13.36

Continuous N-alkylation reactions of amino alcohols using γ-Al2O3 and supercritical CO₂: Unexpected formation of cyclic ureas and urethanes by reaction with CO₂

Emilia S. Streng, Darren S. Lee, Michael W. George, Martyn Poliakoff

Department of Chemical and Environmental Engineering

Research output: Journal Publication › Article › peer-review

17 Citations (Scopus)

29 Downloads (Pure)

Abstract

The use of γ-Al2O3 as a heterogeneous catalyst in scCO₂ has been successfully applied to the amination of alcohols for the synthesis of N-alkylated heterocycles. The optimal reaction conditions (temperature and substrate flow rate) were determined using an automated self-optimising reactor, resulting in moderate to high yields of the target products. Carrying out the reaction in scCO₂ was shown to be beneficial, as higher yields were obtained in the presence of CO₂ than in its absence. A surprising discovery is that, in addition to cyclic amines, cyclic ureas and urethanes could be synthesised by incorporation of CO₂ from the supercritical solvent into the product.

Original language	English
Pages (from-to)	329-337
Number of pages	9
Journal	Beilstein Journal of Organic Chemistry
Volume	13
DOIs	https://doi.org/10.3762/bjoc.13.36
Publication status	Published - 21 Feb 2017

Keywords

Continuous flow
Heterocycle
N-alkylation
Self-optimisation
Supercritical CO

ASJC Scopus subject areas

Organic Chemistry

Access to Document

10.3762/bjoc.13.36

41185Accepted author manuscript, 764 KBLicence: CC BY

Cite this

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title = "Continuous N-alkylation reactions of amino alcohols using γ-Al2O3 and supercritical CO2: Unexpected formation of cyclic ureas and urethanes by reaction with CO2",

abstract = "The use of γ-Al2O3 as a heterogeneous catalyst in scCO2 has been successfully applied to the amination of alcohols for the synthesis of N-alkylated heterocycles. The optimal reaction conditions (temperature and substrate flow rate) were determined using an automated self-optimising reactor, resulting in moderate to high yields of the target products. Carrying out the reaction in scCO2 was shown to be beneficial, as higher yields were obtained in the presence of CO2 than in its absence. A surprising discovery is that, in addition to cyclic amines, cyclic ureas and urethanes could be synthesised by incorporation of CO2 from the supercritical solvent into the product.",

keywords = "Continuous flow, Heterocycle, N-alkylation, Self-optimisation, Supercritical CO",

author = "Streng, {Emilia S.} and Lee, {Darren S.} and George, {Michael W.} and Martyn Poliakoff",

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doi = "10.3762/bjoc.13.36",

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T2 - Unexpected formation of cyclic ureas and urethanes by reaction with CO2

AU - Streng, Emilia S.

AU - Lee, Darren S.

AU - George, Michael W.

AU - Poliakoff, Martyn

PY - 2017/2/21

Y1 - 2017/2/21

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AB - The use of γ-Al2O3 as a heterogeneous catalyst in scCO2 has been successfully applied to the amination of alcohols for the synthesis of N-alkylated heterocycles. The optimal reaction conditions (temperature and substrate flow rate) were determined using an automated self-optimising reactor, resulting in moderate to high yields of the target products. Carrying out the reaction in scCO2 was shown to be beneficial, as higher yields were obtained in the presence of CO2 than in its absence. A surprising discovery is that, in addition to cyclic amines, cyclic ureas and urethanes could be synthesised by incorporation of CO2 from the supercritical solvent into the product.

KW - Continuous flow

KW - Heterocycle

KW - N-alkylation

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KW - Supercritical CO

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