期刊
ORGANIC CHEMISTRY FRONTIERS
卷 8, 期 17, 页码 4693-4699出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1qo00646k
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资金
- Universite Paris Saclay
- CNRS
- Ministere de l'Europe et des Affaires Etrangeres (bourse d'excellence Eiffel)
- Charm3At LabEx [ANR-11-LABEX-0039]
New procedures for efficient reuse of chiral organic catalysts are in high demand, with the synthesis of a chiral isothiourea functionalized by a pyrene moiety via click chemistry being described in this study. The immobilization of the catalyst on reduced graphene oxide through strong pi-pi interactions led to successful reuse in seven consecutive cycles, demonstrating high yields and good to excellent enantioselectivity values in the targeted product synthesis.
New procedures dedicated to the efficient reuse of chiral organic catalysts are currently in great demand. Indeed, and even if toxicity issues are less problematic than with organometallic catalysts, their easy recovery and recycling allow an overall saving of material, which is of utmost importance when valuable enantiopure catalysts are concerned. We describe here the synthesis of a chiral isothiourea (hyperBTM) functionalized by a pyrene moiety via click chemistry. This new enantiopure Lewis base is used as supported catalyst thanks to its immobilization on reduced graphene oxide via strong pi-pi interactions between the polyaromatic core and the carbon support. The synthesis of scalemic oxazolidin-4-ones from oxaziridines and arylacetic anhydrides is chosen as a test reaction to assess the validity of the process, this transformation having never been carried out under recycling conditions. Optimization of the reaction conditions led to the synthesis of the targeted products in high yields and good to excellent enantioselectivity values with the supported catalyst. Recovery of the active species occurred by simple filtration, the immobilized catalyst was then successfully reengaged in seven consecutive cycles while maintaining its efficiency. The robustness of this chiral organic isothiourea was also demonstrated in an original multi-substrate procedure.
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