摘要
新反应、新试剂的发展是有机合成化学的重要研究内容,基于前期在α-氨基丙二腈合成方法学方面的工作基础,我们发展了一例铜催化的α-氨基丙二腈的脱氰氧代反应.通过将甲酰胺转化为α-氨基丙二腈后,借助其亲核属性来合成α-氨基丙二腈底物,而后将底物重新转化为酰胺,从而实现形式上的氨基甲酰负离子的亲核加成(取代)反应.该工作首次完成了形式上的甲酰胺碳原子的极性反转,实现了将α-氨基丙二腈作为氨基甲酰负离子替代物的反应新模式,为叔酰胺化合物的合成提供了新的思路和方法,且具有反应条件简单,底物适用性广及适合克级规模制备等特点.
The development of new synthetic methodology and reagent is always a hot topic in organic synthesis community.Among the strategies used,chemical property investigation of synthetic intermediates with multifunctional groups represents a direct and efficient way.In this paper,as a systematic continuation ofα-aminomalononitrile based synthetic application studies,α-aminomalononitrile has been developed for the first time as a surrogate for carbamoyl anions and applied to the synthesis of tertiary amides via a copper-catalyzed decyanation reaction.This strategy features simple reaction conditions,scalability,and wide substrate scope.This work not only further enriches the reaction model of aminonitrile compounds,but also provides an alternative synthetic strategy for the synthesis of substituted amides from simple formamides.In this process,the substrates could be readily synthesized through the nucleophilic addition or substitution reaction ofα-aminomalononitriles,and they would be converted to corresponding tertiary amide in the presence of CuF2 in DMSO.As an example,the formal hydrocarbamoylation reaction of unsaturated bonds could be achieved.A general procedure for the strategy is as follows:α-aminomalononitrile derived from formamide is used to undergo nucleophilic addition or substitution reaction with electrophilic reagents.Next,the two cyano groups of the synthesized substrates could be removed under the catalysis of CuF2 to form a C=O double bond in situ,thereby achieving the synthesis of corresponding tertiary amide.During the reaction,theα-aminomalononitrile substrate(0.4 mmol),CuF2(5 mol%),DMSO(3 mL)were placed in a sealed reaction tube at 100℃at an argon atmosphere for about 32 hours.Then,the reaction system was washed out with ethyl acetate,and the organic phase was washed with water to remove DMSO.Next,the aqueous phase was extracted with ethyl acetate.Finally all organic phases were combined,washed once with saturated brine.After drying the organic phase over anhydrous sodium sulfate,it was concentrated by a vacuum pump.Finally,the residue was purified by flash column chromatography to give amide product.
作者
梁欢
苟阿龙
高珠鹏
雷林生
王博文
余兰
徐学涛
王少华
Liang Huan;Gou Along;Gao Zhupeng;Lei Linsheng;Wang Bowen;Yu Lan;Xu Xuetao;Wang Shaohua(School of Pharmacy Lanzhou University,Lanzhou 730000 China;School of Biotechnology and Health Sciences Wuyi University,Jiangmen 529020 China)
出处
《化学学报》
SCIE
CAS
CSCD
北大核心
2020年第10期1064-1068,共5页
Acta Chimica Sinica
基金
国家自然科学基金(Nos.21472077,21772071)
广东省教育厅项目(Nos.2017KTSCX185,2017KSYS010,2016KCXTD005,2019KZDXM035)资助项目。
