Mass transfer-enhanced platform for heterogeneous dual organocatalysis to boost yield and diastereoselectivity in enantioselective Michael/benzoin cascade reaction

IF 4.7 2区 化学 Q2 CHEMISTRY, PHYSICAL
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Abstract

Mass transfer limitation and tedious anchoring of multiple expensive chiral organocatalysts are the key bottlenecks in heterogeneous asymmetric cascade/tandem reactions, leading to high-cost processes with low catalytic performances. In this paper, two chiral organocatalysts, including (S)-diphenylprolinoltrimethylsilyl ether (ProTMS) and N-heterocyclic carbenes (NHC), are simultaneously immobilized to hollow mesoporous polystyrene nanospheres (HMPNs) in one-pot via Friedel-Crafts alkylation to afford supported dual organocatalysts (ProTMS&NHC@HMPNs) at low cost. The catalyst possesses the spherical morphology with a hollow interior and a thin mesopore-abundant shell, providing suitable environments for reactants to quickly access to the catalytic sites of NHC and ProTMS. The side reactions caused by limited mass transfer are effectively suppressed, and superior yields (70–92 %) and diastereoselectivities (dr = 3:120:1) to homogeneous catalysis are achieved in heterogeneous Michael/benzoin cascade reaction. Overall, the mass transfer-enhanced platform for efficient heterogeneous dual organocatalysis is developed to boost yield and diastereoselectivity in asymmetric cascade reactions.

用于异质双有机催化的传质强化平台,提高对映体选择性迈克尔/安息香级联反应的产率和非对映选择性
传质限制和多种昂贵手性有机催化剂的繁琐锚定是异构不对称级联/串联反应的关键瓶颈,导致工艺成本高、催化性能低。本文通过Friedel-Crafts烷基化反应,将两种手性有机催化剂(包括(S)-二苯基丙烯醇三甲基硅醚(ProTMS)和N-杂环碳化物(NHC))同时固定到中空介孔聚苯乙烯纳米球(HMPNs)上,从而以低成本获得了支撑型双有机催化剂(ProTMS&NHC@HMPNs)。该催化剂具有球形形态,内部中空,外壳介孔丰富,为反应物快速进入 NHC 和 ProTMS 的催化位点提供了合适的环境。在异相迈克尔/安息香级联反应中,由有限传质引起的副反应被有效抑制,并获得了优于均相催化的产率(70-92%)和非对映选择性(dr = 3:120:1)。总之,开发出了用于高效异相双有机催化的传质增强平台,从而提高了不对称级联反应的产率和非对映选择性。
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来源期刊
Applied Catalysis A: General
Applied Catalysis A: General 化学-环境科学
CiteScore
9.00
自引率
5.50%
发文量
415
审稿时长
24 days
期刊介绍: Applied Catalysis A: General publishes original papers on all aspects of catalysis of basic and practical interest to chemical scientists in both industrial and academic fields, with an emphasis onnew understanding of catalysts and catalytic reactions, new catalytic materials, new techniques, and new processes, especially those that have potential practical implications. Papers that report results of a thorough study or optimization of systems or processes that are well understood, widely studied, or minor variations of known ones are discouraged. Authors should include statements in a separate section "Justification for Publication" of how the manuscript fits the scope of the journal in the cover letter to the editors. Submissions without such justification will be rejected without review.
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