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- Title
A Compartmentalized‐type Bifunctional Magnetic Catalyst for One‐pot Aerobic Oxysulfonylation and Asymmetric Transfer Hydrogenation.
- Authors
Wang, Shitong; Wang, Chengyi; Lv, Ning; Tan, Chunxia; Cheng, Tanyu; Liu, Guohua
- Abstract
Utilization of the confined cavity of the mesoporous silica, the exploration of the synergetic catalysis process for sequential organic transformations has great significance in asymmetric catalysis. In this study, the yolk‐shell‐structured magnetic nanoparticles with the chiral Ru/diamine species within the nanochannels of the outer mesoporous silica shell and the FeCl3 species on the inner magnet core are fabricated. The electron microscopy images and the structural characterizations disclose the uniformly distributed magnetic nanoparticles with the well‐defined single‐site ruthenium/diamine active centers onto the outer silica shell. As a yolk‐shell‐structured bifunctional magnet catalyst, the FeCl3 species enables an efficient aerobic oxysulfonylation between aryl‐substituted terminal alkynes and sodium sulfinates to the β‐keto sulfones intermediates, and the ruthenium/diamine species sequentially reduces the in‐situ generated intermediate to the chiral β‐hydroxysulfones products. As we envision, this one‐pot aerobic oxysulfonylation/asymmetric transfer hydrogenation process affords various chiral β‐hydroxysulfones in high yields with excellent enantioselectivities. Furthermore, this magnetic catalyst can also be conveniently recovered via an additional outer magnet and repeatedly recycled, showing a potential application in industrial interest.
- Subjects
TRANSFER hydrogenation; CATALYSTS; MAGNETIC nanoparticles; CATALYSIS; HETEROGENEOUS catalysis; MESOPOROUS silica; RUTHENIUM catalysts
- Publication
ChemCatChem, 2021, Vol 13, Issue 3, p909
- ISSN
1867-3880
- Publication type
Article
- DOI
10.1002/cctc.202001553