溶剂控制的炔基醛光催化发散环化反应：合成环戊烯酮和二氢吡喃醇

Solvent-controlled photocatalytic divergent cyclization of alkynyl aldehydes: access to cyclopentenones and dihydropyranols.

作者信息

Zhu Haiqian, Zheng Hanliang, Zhang Junhua, Feng Jian, Kong Lichun, Zhang Fang, Xue Xiao-Song, Zhu Gangguo

机构信息

Key Laboratory of the Ministry of Education for Advanced Catalysis Materials, Department of Chemistry, Zhejiang Normal University 688 Yingbin Road Jinhua 321004 P. R. China

State Key Laboratory of Elemento-organic Chemistry, College of Chemistry, Nankai University Tianjin 300071 P. R. China

出版信息

Chem Sci. 2021 Jul 26;12(34):11420-11426. doi: 10.1039/d1sc03416b. eCollection 2021 Sep 1.

DOI:10.1039/d1sc03416b

PMID:34567496

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8409468/

Abstract

Divergent synthesis is a powerful strategy for the fast assembly of different molecular scaffolds from identical starting materials. We describe here a solvent-controlled photocatalytic divergent cyclization of alkynyl aldehydes with sulfonyl chlorides for the direct construction of highly functionalized cyclopentenones and dihydropyranols that widely exist in bioactive molecules and natural products. Density functional theory calculations suggest that a unique ,-dimethylacetamide-assisted 1,2-hydrogen transfer of alkoxy radicals is responsible for the cyclopentenone formation, whereas a C-C cleavage accounts for the selective production of dihydropyranols in acetonitrile and water at 50 °C. Given the simple and mild reaction conditions, excellent functional group compatibility, forming up to four chemical bonds, and tunable selectivity, it may find wide applications in synthetic chemistry.

摘要

发散合成是一种从相同起始原料快速组装不同分子骨架的强大策略。我们在此描述了一种溶剂控制的光催化炔基醛与磺酰氯的发散环化反应，用于直接构建广泛存在于生物活性分子和天然产物中的高度官能化环戊烯酮和二氢吡喃醇。密度泛函理论计算表明，一种独特的、由N,N-二甲基乙酰胺辅助的烷氧基自由基1,2-氢转移导致环戊烯酮的形成，而碳-碳键断裂则是在50℃下乙腈和水中二氢吡喃醇选择性生成的原因。鉴于反应条件简单温和、官能团兼容性优异、能形成多达四个化学键以及选择性可调，它可能在合成化学中得到广泛应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cfdc/8409468/617123cb166e/d1sc03416b-s1.jpg

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溶剂控制的炔基醛光催化发散环化反应：合成环戊烯酮和二氢吡喃醇

Solvent-controlled photocatalytic divergent cyclization of alkynyl aldehydes: access to cyclopentenones and dihydropyranols.

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