Add to ORKGChiral phase-transfer catalysis provides high level of enantiocontrol, however no experimental data showed the interaction of catalysts and substrates. 1 H NMR titration was carried out on Cinchona and Maruoka ammonium bromides vs. nitro, carbonyl, heterocycles, and N-F containing compounds. It was found that neutral organic species and quaternary ammonium salts interacted via an ensemble of catalyst + N-C-H and (sp2 )C-H, specific for each substrate studied. The correspondent BArF salts interacted with carbonyls via a diverse set of + N-C-H and (sp2 )C-H compared to bromides. This data suggests that BArF ammonium salts may display a different enantioselectivity profile. Although not providing quantitative data for the affinity constants, t...
Phase-transfer catalysis has widely been used as a prime synthetic tool for both laboratory and indu...
Part I of this dissertation describes the investigation in APTC employing a chemoinformatic analysis...
104 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2002.The work described in Chapter...
Chiral phase-transfer catalysis provides high level of enantiocontrol, however no experimental data ...
Ammonium salts are used as phase-transfer catalysts for fluorination with alkali metal fluoride. We ...
The first half of this thesis (Chapter 2) described the development of a fluoride-promoted conjugate...
This work is concerned with the development of the synthesis of a series of N-anthracenyl cinchona s...
We have recently introduced a new class of chiral ammonium salt catalysts derived from easily availa...
Due to the constant demand for non-racemic molecules in both industrial and academic laboratories, m...
In summary, this work deals with the enantioselective synthesis of - and -amino nitriles, which can ...
To elucidate the asymmetric inductive effect of the N-stereogenic centre in quaternary ammonium salt...
The chemistry of bioactive organofluorine compounds is a rapidly developing area of research because...
This thesis presents the application and development of H-bond donor organocatalysts. Chapter 2 pre...
Phase-transfer catalysis has been recognized as a powerful and green sustainable method for organic ...
Density functional theory was used to model glycinate enolate binding and enantiomeric allylation tr...
Phase-transfer catalysis has widely been used as a prime synthetic tool for both laboratory and indu...
Part I of this dissertation describes the investigation in APTC employing a chemoinformatic analysis...
104 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2002.The work described in Chapter...
Chiral phase-transfer catalysis provides high level of enantiocontrol, however no experimental data ...
Ammonium salts are used as phase-transfer catalysts for fluorination with alkali metal fluoride. We ...
The first half of this thesis (Chapter 2) described the development of a fluoride-promoted conjugate...
This work is concerned with the development of the synthesis of a series of N-anthracenyl cinchona s...
We have recently introduced a new class of chiral ammonium salt catalysts derived from easily availa...
Due to the constant demand for non-racemic molecules in both industrial and academic laboratories, m...
In summary, this work deals with the enantioselective synthesis of - and -amino nitriles, which can ...
To elucidate the asymmetric inductive effect of the N-stereogenic centre in quaternary ammonium salt...
The chemistry of bioactive organofluorine compounds is a rapidly developing area of research because...
This thesis presents the application and development of H-bond donor organocatalysts. Chapter 2 pre...
Phase-transfer catalysis has been recognized as a powerful and green sustainable method for organic ...
Density functional theory was used to model glycinate enolate binding and enantiomeric allylation tr...
Phase-transfer catalysis has widely been used as a prime synthetic tool for both laboratory and indu...
Part I of this dissertation describes the investigation in APTC employing a chemoinformatic analysis...
104 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2002.The work described in Chapter...