Asymmetric catalysis is a type of catalysis in which a chiral catalyst directs the formation of a chiral compound such that formation of one particular stereoisomer is favoured. Since the catalyst ...

Our work on acyl transfer catalysis has focused on the design on new catalytic cycles and on mechanistic studies to aid in the design of new catalysts, while our approach to the synthesis of chiral ...

Understanding and controlling chirality at the nanoscale is crucial for various applications, including drug development, catalysis, and materials science. Chiral Au nanorod and its helicity map that ...

A library of chiral vicinal diamines, most otherwise inaccessible, is efficiently built that can be applied as chiral catalysts, building blocks, and materials. In particular, chiral ...

Chirality, essential in fields like chiral sensing and molecular recognition, offers potential for enhancing these materials' multifunctionality, though research remains scarce. Notably ...