Your search keyword '"RPKA"' showing total 3 results

1. Tartramide Ligands for Copper‐Catalyzed N‐Arylation at Room Temperature

Author

Xuerui Ma and Robert P. Davies

Subjects

MECHANISM, Science & Technology, PALLADIUM, RPKA, Organic Chemistry, Chemistry, Organic, 0904 Chemical Engineering, BCL-2, General Chemistry, 0305 Organic Chemistry, Ullmann Reaction, Chemistry, Applied, Chemistry, AMINATION, kinetics, DISCOVERY, Physical Sciences, C-N bond formation, 0302 Inorganic Chemistry, COMPLEXES, Copper

Abstract

A novel class of readily accessible tartramide ligands has been demonstrated to promote copper-catalysed N-arylation under mild conditions. In addition, the coupling protocol employs cheap and readily available pre-catalyst, ligand, and base (NaOH), and overcomes many current limitations often associated with Ullmann coupling: it can be run with low catalyst loadings, does not require the use of excess amine, gives excellent conversions at room temperature, is fully homogeneous, and displays improved tolerance to air and moisture. Detailed kinetic studies using reaction progress kinetic analysis (RPKA) methods have provided insight into the factors influencing the reaction rate in terms of impact of ligand structure, reactant / catalyst dependence and catalyst (in)stability. These kinetic insights have been used in a quality-by-design approach for further optimization of the reaction protocol. The reaction scope was extended to 22 examples, showing broad applicability for a wide range of substituted aryl iodides with both primary and secondary amines.

Published

2022

2. Mechanistic investigations into the cyclopropanation of electron-deficient alkenes with ethyl diazoacetate using [Co(MeTAA)].

Author

Chirila, Andrei, Brands, Maria B., and De Bruin, Bas

Subjects

*CYCLOPROPANATION, *ALKENES, *ELECTRON-deficient compounds, *ANNULENES, *DENSITY functional theory

Abstract

A detailed mechanistic study of the cyclopropanation of electron-deficient alkenes, namely methyl acrylate with ethyl diazoacetate (EDA), was carried out, aiming at understanding both the superior activity and the higher sensitivity of the cobalt(II) tetramethyldibenzotetraaza[14]annulene [Co(MeTAA)] catalyst as compared with cobalt(II) tetraphenylporphyrin [Co(TPP)]. Cobalt(III)-carbene radicals were demonstrated to be present as key intermediates in the reaction, using a combination of kinetic studies, experimental EPR spin-trapping experiments, and supporting DFT studies. Reaction progress was monitored in real time by observing N 2 formation and measuring its partial pressure under isothermal conditions. Reaction progress kinetic analysis (RPKA) was used to analyze the experimental data. Results showed that the reaction is first-order in both [catalyst] and [EDA] and zero-order in [methyl acrylate], in agreement with the DFT-calculated mechanism. The calculated activation parameters corresponding to the rate-determining step of the reaction are in agreement with the experimental values, thus providing strong support for the proposed metalloradical mechanism. [ABSTRACT FROM AUTHOR]

Published

2018

3. STUDIES IN DIRECTED CATALYTIC ASYMMETRIC HYDROBORATION OF 1,2-DISUBSTITUTED UNSATURATED AMIDE

Author

Zhang, Shuyang

Subjects

CAHB, RPKA, Organic Chemistry

Abstract

The Rh-catalyzed, substrate directed catalytic asymmetric hydroboration of γ,δ-unsaturated amides provides a direct route to enantioenriched acyclic secondary γ-borylated carbonyl derivatives with high regio- and enantioselectivity. The catalytic condition optimization and substrate scope study is discussed, including the effects in catalytical asymmetric hydroboration on pre-installed chiral γ,δ-unsaturated amides. A mechanistic study from kinetic approach by graphical manipulation (reaction progress kinetic analysis for substrate orders and normalized time analysis for catalyst order.) was discussed in this thesis Advisor: Professor James M. Takacs

Published

2017