Construction of the Oxazolidinone Framework from Propargylamine and CO2 in Air at Ambient Temperature: Catalytic Effect of a Gold Complex Featuring an L2/Z‐Type Ligand

The metal‐catalyzed carboxylation of propargylamines with aerial CO2 at room temperature to form 5‐methyleneoxazolidin‐2‐one derivatives has been developed. In this reaction, the catalyst [Au(dpbF)]X featuring a Z‐type ligand gave the best results, presumably due to the σ‐acceptance of the borane at...

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Published in:European journal of organic chemistry 2018-06, Vol.2018 (23), p.2972-2976
Main Authors: Inagaki, Fuyuhiko, Maeda, Kakeru, Nakazawa, Kenta, Mukai, Chisato
Format: Article
Language:English
Subjects:
Ambient temperature
Carbon dioxide
Carbon dioxide fixation
Carboxylation
Catalysis
Gold
Heterocycles
Ligands
Z‐type ligands
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container_issue 23
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container_title European journal of organic chemistry
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creator Inagaki, Fuyuhiko
Maeda, Kakeru
Nakazawa, Kenta
Mukai, Chisato
description The metal‐catalyzed carboxylation of propargylamines with aerial CO2 at room temperature to form 5‐methyleneoxazolidin‐2‐one derivatives has been developed. In this reaction, the catalyst [Au(dpbF)]X featuring a Z‐type ligand gave the best results, presumably due to the σ‐acceptance of the borane atom. The carboxylation of propargylamines with aerial CO2 at room temperature to form 5‐methyleneoxazolidin‐2‐one derivatives has been developed by using a gold catalyst featuring a Z‐type ligand.
doi_str_mv 10.1002/ejoc.201800228
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subjects Ambient temperature
Carbon dioxide
Carbon dioxide fixation
Carboxylation
Catalysis
Gold
Heterocycles
Ligands
Z‐type ligands
title Construction of the Oxazolidinone Framework from Propargylamine and CO2 in Air at Ambient Temperature: Catalytic Effect of a Gold Complex Featuring an L2/Z‐Type Ligand
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