Synthesizing Chiral Hydrocarbazoles with a Tetrasubstituted Carbon Using Holmium-Catalyzed Enantioselective [4 + 2] Cycloaddition: Mechanistic Insights from Luminescence and DFT Studies.

Shinji HaradaShihori SekinoMarisa InabaAyumi OkitaTetsuhiro Nemoto Shigeru AraiHitomi OhmagariMiki Hasegawa Atsushi Nishida

Published in: The Journal of organic chemistry (2024)

This study analyzes the feasibility of utilizing the catalytic and enantioselective [4 + 2] cycloaddition of sterically demanding heterocycle-incorporated siloxydienes to yield polycyclic skeletons with a tetrasubstituted carbon. A catalyst derived from lanthanide triflimide enabled the reaction. The mechanistic investigations and transformations of the adducts are also discussed. The proposed approach facilitates the synthesis of intricate polysubstituted skeletons, each with multiple contiguous chiral centers, thereby aiding in the production of diverse hydrocarbazoles for drug discovery purposes.

Keyphrases

drug discovery
ionic liquid
room temperature
capillary electrophoresis
energy transfer
quantum dots
single molecule
density functional theory
crystal structure
highly efficient
molecular docking
reduced graphene oxide
benign prostatic hyperplasia
carbon dioxide
molecular dynamics simulations