Issue 22, 2022

N-Formylation of amines utilizing CO2 by a heterogeneous metal–organic framework supported single-site cobalt catalyst

Abstract

Catalytic N-formylation of amines using CO2 is considered pivotal for the sustainable synthesis of formamides, key chemical feedstocks for synthesizing heterocycles, pharmaceuticals and bioactive molecules. We report a single-site cobalt(II) hydride catalyst supported on an aluminum metal–organic framework (DUT-5-CoH), which is an active heterogeneous catalyst for transforming both primary and secondary amines, as well as anilines, into the corresponding N-formamides utilizing CO2 and either H2 or phenylsilane as a reducing agent. DUT-5-CoH is tolerant to a range of amine substrates bearing various functional groups under 10 bar CO2. Various aromatic and aliphatic primary amines as well as secondary amines were readily converted to the corresponding N-formamides in excellent yields and selectivity. The MOF could be recycled and reused up to 15 times without decreasing the catalytic activity in the N-formylation of p-methoxybenzylamine. The kinetic, spectroscopic and density functional theory calculation studies suggest that the reaction of DUT-5-CoH and CO2 forms cobalt-formate, which undergoes PhSiH3 assisted formamide formation with benzylamine in the turnover limiting step. This work highlights the development of robust single-site earth-abundant metal catalysts based on metal–organic frameworks for efficient and chemoselective N-formylation of amines using CO2.

Graphical abstract: N-Formylation of amines utilizing CO2 by a heterogeneous metal–organic framework supported single-site cobalt catalyst

Supplementary files

Article information

Article type
Paper
Submitted
11 Jul 2022
Accepted
03 Oct 2022
First published
04 Oct 2022

Catal. Sci. Technol., 2022,12, 6795-6804

N-Formylation of amines utilizing CO2 by a heterogeneous metal–organic framework supported single-site cobalt catalyst

R. Newar, R. Kalita, N. Akhtar, N. Antil, M. Chauhan and K. Manna, Catal. Sci. Technol., 2022, 12, 6795 DOI: 10.1039/D2CY01231F

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