| Literature DB >> 33783074 |
Masami Sakamoto1,2, Naohiro Uemura1, Rei Saito1, Haruna Shimobayashi1, Yasushi Yoshida1,2, Takashi Mino1,2, Takashige Omatsu2,3.
Abstract
The study of chirogenesis of organic molecules is important to elucidate the origin of the homochirality of biomolecules on Earth. Here, we have accomplished chiral symmetry breaking from a racemate using optical vortices with orbital angular momentum and a helical wavefront. We propose a new methodology of asymmetric transformation by the combination of enantioselective crystal nucleation by irradiation with optical vortices and crystallization-induced dynamic optical resolution of conglomerate crystals. Chiral green vortices generated using a spiral phase plate (SPP) with a 532 nm CW-laser were used to irradiate a supersaturated solution of a racemic isoindolinone, leading to crystal nucleation. The handedness of the crystals were controlled by the winding direction of the chiral optical vortices. The molecular chirality of the isoindolinone was then amplified by dynamic crystallization.Entities:
Keywords: asymmetric amplification; chirality transfer; crystallization-induced dynamic optical resolution; enantioselective nucleation; optical vortices
Year: 2021 PMID: 33783074 DOI: 10.1002/anie.202103382
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336