Litcius/Paper detail

Synthesis of Dipeptide, Amide, and Ester without Racemization by Oxalyl Chloride and Catalytic Triphenylphosphine Oxide

Ji‐Wei Ren, Mengnan Tong, Yufen Zhao, Feng Ni

2021Organic Letters28 citationsDOI

Abstract

An efficient triphenylphosphine oxide-catalyzed amidation and esterification for the rapid synthesis of a series of dipeptides, amides, and esters is described. This reaction is applicable to challenging couplings of hindered carboxylic acids with weakly nucleophilic amines or alcohols, giving the products in good yields (67–90%) without racemization. This system employs the highly reactive intermediate Ph3PCl2 as the activator of the carboxylate in a catalytic manner and drives the reaction to completion in a short reaction time (less than 10 min).

Topics & Concepts

RacemizationChemistryDipeptideOxalyl chlorideAmideTriphenylphosphineCatalysisTriphenylphosphine oxideOrganic chemistryChlorideOxideCombinatorial chemistryAmino acidBiochemistryChemical Synthesis and AnalysisAsymmetric Synthesis and CatalysisAnalytical Chemistry and Chromatography