Asymmetric phase-transfer catalysis enables the stereoselective synthesis of chiral molecules by shuttling ionic reagents across immiscible phases under the influence of a chiral catalyst. Typically ...
Asymmetric phase transfer catalysis exploits chiral crown ethers as molecular shuttles to transfer ionic reactants between immiscible phases, enabling the enantioselective construction of ...
Important everyday products—from plastics to detergents—are made through chemical reactions that mostly use precious metals such as platinum as catalysts. Scientists have been searching for more ...
Catalytic function and its efficiency play a significant role in industrial reactions, and consistent reforms are made in the methodology to enhance the large-scale synthesis of drugs, polymers, and ...