离子液体负载有机催化剂加速Baylis-Hillman反应

IF 0.9 Q4 CHEMISTRY, PHYSICAL

Current Organocatalysis Pub Date : 2021-07-19 DOI:10.2174/2213337208666210719100147

V. Srivastava

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引用次数: 0

摘要

Baylis-Hillman反应要求原料便宜，反应方案简单，在反应产物中产生手性中心的可能性增加了该反应的合成效率，催化剂负载量高，反应速率低，产率低。各种功能性或非功能性离子液体（ILs）与有机催化剂的广泛使用增加了作为反应介质和作为锚定催化剂的载体的各种有机转化的反应速率。在这份手稿中，我们已经证明了奎宁环负载的三甲胺基官能化离子液体作为Baylis-Hillman反应的催化剂的合成。我们以良好的分离产率、低催化剂负载量、短反应时间、宽底物范围、可获得的产物和催化剂再循环获得了Baylis-Hillman加合物。利用CATALYST-3促进的Baylis-Hillman反应，成功合成了N-（（E，3S，4R）-5-亚苄基四氢-4-羟基-6-氧代-2H-吡喃-3-基）棕榈酰胺。我们使用三种不同的奎宁环负载的铵基离子液体，如Et3AmQ][BF4]（CATALYST-1）、[Et3AmQ][PF6]（CATALAST-2）和[TMAmEQ][NTf2]（CATALIAT-3）作为新的有效催化剂，成功分离了25种类型的Baylis-Hillman加合物。还使用CATALYST-3和Baylis-Hillman反应合成了精细且高活性的N-（（E，3S，4R）-5-亚苄基四氢-4-羟基-6-氧代-2H-吡喃-3-基）棕榈酰胺衍生物。一般来说，所有的反应都表现出更高的活性，并与先前报道的各种同质和多相催化系统产生高度竞争。易于回收催化剂和产品，然后回收六种催化剂是该工艺催化系统的附加优点。

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Acceleration of Baylis-Hillman reaction using ionic liquid supported organocatalyst

Baylis-Hillman reaction suffers from the requirement of cheap starting materials, easy reaction protocol, possibility to create the chiral center in the reaction product has increased the synthetic efficacy of this reaction, and high catalyst loading, low reaction rate, and poor yield. The extensive use of various functional or non-functional ionic liquids (ILs) with organocatalyst increases the reaction rate of various organic transformations as a reaction medium and as a support to anchor the catalysts. In this manuscript, we have demonstrated the synthesis of quinuclidine-supported trimethylamine-based functionalized ionic liquid as a catalyst for the Baylis-Hillman reaction. We obtained the Baylis-Hillman adducts in good, isolated yield, low catalyst loading, short reaction time, broad substrate scope, accessible product, and catalyst recycling. N-((E,3S,4R)-5-benzylidene-tetrahydro-4-hydroxy-6-oxo-2H-pyran-3-yl) palmitamide was also successfully synthesized using CATALYST-3 promoted Baylis-Hillman reaction. We successfully isolated the 25 types of Baylis-Hillman adducts using three different quinuclidine-supported ammonium-based ionic liquids such as Et3AmQ][BF4] (CATALYST-1), [Et3AmQ][PF6] (CATALYST-2), and [TMAAmEQ][NTf2](CATALYST-3) as new and efficient catalysts. Tedious and highly active N-((E,3S,4R)-5-benzylidene-tetrahydro-4-hydroxy-6-oxo-2H-pyran-3-yl) palmitamide derivative was also synthesized using CATALYST-3 followed by Baylis-Hillman reaction. Generally, all the responses demonstrated higher activity and yielded high competition with various previously reported homogenous and heterogeneous Catalytic systems. Easy catalyst and product recovery followed by six catalysts recycling were the added advantages of the prosed catalytic system.

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来源期刊

Current Organocatalysis CHEMISTRY, PHYSICAL-

CiteScore

2.00

自引率

0.00%

发文量

期刊介绍： Current Organocatalysis is an international peer-reviewed journal that publishes significant research in all areas of organocatalysis. The journal covers organo homogeneous/heterogeneous catalysis, innovative mechanistic studies and kinetics of organocatalytic processes focusing on practical, theoretical and computational aspects. It also includes potential applications of organocatalysts in the fields of drug discovery, synthesis of novel molecules, synthetic method development, green chemistry and chemoenzymatic reactions. This journal also accepts papers on methods, reagents, and mechanism of a synthetic process and technology pertaining to chemistry. Moreover, this journal features full-length/mini review articles within organocatalysis and synthetic chemistry. It is the premier source of organocatalysis and synthetic methods related information for chemists, biologists and engineers pursuing research in industry and academia.