功能化苯并[f]色烷和羟基烷基萘酚的合成:萘酚和烯丙基醇的催化偶联

IF 4.4 2区 化学 Q2 CHEMISTRY, APPLIED
Raman Sankar, Chidambaram Gunanathan
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引用次数: 0

摘要

壬醇的催化脱芳烃化是一项艰巨的任务,但它可以作为与不饱和偶联伙伴构建 C-C 键的有力方法。本文报告了一种简单高效的萘酚与烯丙基醇偶联策略。通过单个 Ru(II) 钳催化萘酚与伯烯丙基醇的偶联,可生成苯并(f)色烷,而使用仲醇则可生成羟基烷基萘酚。这证明了广泛的底物范围和良好的官能团耐受性。值得注意的是,色烷具有很高的非对映选择性。羟基烷基萘酚被合成转化为螺醚,并在色烷上实现了脱芳溴化。机理研究揭示了串联反应的参与:烯丙基醇在活性催化剂的作用下,通过胺酰胺金属配位体的合作,正式的 O-H 键活化提供了 α-β、不饱和羰基中间体,这些中间体进一步与脱芳烃萘酚发生 1,4 共轭加成反应。其中一个关键的中间体--萘基自由基通过 EPR 研究得到了阐明,并使用自由基清除剂将其捕获。释放出的氢和水分子是这些转化过程中唯一的副产物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis of Functionalized Benzo[f]chromanes and Hydroxyalkyl Naphthols: Catalytic Coupling of Naphthols and Allylic Alcohols
Catalytic dearomatization of arenols is an uphill task that can serve as a powerful method to construct C-C bonds with unsaturated coupling partners. Herein, a simple and efficient strategy for coupling naphthols with allylic alcohols is reported. A single Ru(II) pincer catalyzed coupling of naphthols with primary allylic alcohols led to the formation of benzo(f)chromanes, whereas the use of secondary alcohols delivered the hydroxyalkyl naphthols. Broad substrate scope and good functional group tolerance are demonstrated. Notably, a high diastereoselectivity is attained on chromanes. Hydroxyalkyl naphthols are synthetically transformed into spiroethers, and dearomative bromination is achieved on chromanes. Mechanistic studies revealed the involvement of tandem reactions, a formal O-H bond activation of allylic alcohols by an active catalyst via amine-amide metal-ligand cooperation provided α-β, unsaturated carbonyl intermediates, which further underwent 1,4 conjugate addition with dearomatized naphthols. One of the crucial intermediates, naphthyl radical, is elucidated by EPR studies and trapped using a radical scavenger. Liberated hydrogen and water molecules are the only byproducts in these transformations.
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来源期刊
Advanced Synthesis & Catalysis
Advanced Synthesis & Catalysis 化学-应用化学
CiteScore
9.40
自引率
7.40%
发文量
447
审稿时长
1.8 months
期刊介绍: Advanced Synthesis & Catalysis (ASC) is the leading primary journal in organic, organometallic, and applied chemistry. The high impact of ASC can be attributed to the unique focus of the journal, which publishes exciting new results from academic and industrial labs on efficient, practical, and environmentally friendly organic synthesis. While homogeneous, heterogeneous, organic, and enzyme catalysis are key technologies to achieve green synthesis, significant contributions to the same goal by synthesis design, reaction techniques, flow chemistry, and continuous processing, multiphase catalysis, green solvents, catalyst immobilization, and recycling, separation science, and process development are also featured in ASC. The Aims and Scope can be found in the Notice to Authors or on the first page of the table of contents in every issue.
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