Phase-transfer catalysis has widely been used as a prime synthetic tool for both laboratory and industrial processes. During the last twenty years, asymmetric phase-transfer catalysis using chiral organocatalysts has attracted widespread interest. However, the scope of chiral phase-transfer catalysis has been limited mostly to the quaternary ammonium salts. As an emerging area, the recent developments in the application of quaternary phosphonium salts as chiral phase-transfer catalysts are discussed in this article
The ability to control absolute stereochemistry is a powerful tool in organic synthesis. Given the u...
Ammonium salts are used as phase-transfer catalysts for fluorination with alkali metal fluoride. We ...
This thesis describes two new phase-transfer catalysed processes, in which asymmetry is mediated via...
Phase-transfer catalysis has been recognized as a powerful and green sustainable method for organic ...
A series of structurally rigid, chiral quaternary ammonium salts derived from commercially available...
Catalysts accelerate biological processes and organic reactions in a controlled and selective fashio...
This thesis details the syntheses of catalysts and their applications in asymmetric reactions. Initi...
Phase-transfer catalysis has long been recognized as a versatile method for organic synthesis. In pa...
This work is concerned with the development of the synthesis of a series of N-anthracenyl cinchona s...
Although chiral quaternary ammonium and phosphonium salts are commonly used for asymmetric organocat...
Due to the constant demand for non-racemic molecules in both industrial and academic laboratories, m...
The chemistry of bioactive organofluorine compounds is a rapidly developing area of research because...
Phosphorus-based organocatalysis encompasses several subfields that have undergone rapid growth in r...
Ten novel bifunctional quaternary ammonium salt phase-transfer organocatalysts were synthesized in f...
Lissel M, Feldman D, Nir M, Rabinovitz M. Bis-quaternary ammonium salts as phase transfer catalysts....
The ability to control absolute stereochemistry is a powerful tool in organic synthesis. Given the u...
Ammonium salts are used as phase-transfer catalysts for fluorination with alkali metal fluoride. We ...
This thesis describes two new phase-transfer catalysed processes, in which asymmetry is mediated via...
Phase-transfer catalysis has been recognized as a powerful and green sustainable method for organic ...
A series of structurally rigid, chiral quaternary ammonium salts derived from commercially available...
Catalysts accelerate biological processes and organic reactions in a controlled and selective fashio...
This thesis details the syntheses of catalysts and their applications in asymmetric reactions. Initi...
Phase-transfer catalysis has long been recognized as a versatile method for organic synthesis. In pa...
This work is concerned with the development of the synthesis of a series of N-anthracenyl cinchona s...
Although chiral quaternary ammonium and phosphonium salts are commonly used for asymmetric organocat...
Due to the constant demand for non-racemic molecules in both industrial and academic laboratories, m...
The chemistry of bioactive organofluorine compounds is a rapidly developing area of research because...
Phosphorus-based organocatalysis encompasses several subfields that have undergone rapid growth in r...
Ten novel bifunctional quaternary ammonium salt phase-transfer organocatalysts were synthesized in f...
Lissel M, Feldman D, Nir M, Rabinovitz M. Bis-quaternary ammonium salts as phase transfer catalysts....
The ability to control absolute stereochemistry is a powerful tool in organic synthesis. Given the u...
Ammonium salts are used as phase-transfer catalysts for fluorination with alkali metal fluoride. We ...
This thesis describes two new phase-transfer catalysed processes, in which asymmetry is mediated via...