Ruthenium-Catalyzed Selective C4 C-H Phosphorylation of Indoles and Mechanistic Insights.
IF 5
1区 化学
Q1 CHEMISTRY, ORGANIC
引用次数: 0
Abstract
Phosphorylated indoles are valuable motifs in medicinal chemistry and functional materials, attracting considerable attention for their efficient and selective synthesis. We report the first ruthenium-catalyzed direct C-H phosphorylation at C4 of indoles, without preprotection of C2 and C3. This strategy enables the efficient construction of structurally diverse phosphorylated indole derivatives and delivers N-H-free phosphorylated indoles in high yields via a one-pot deprotection sequence. Density functional theory (DFT) studies revealed that steric effects from bulky N-substituents are the key driving force for C4 selectivity, effectively suppressing competing activation pathways at C2 and C3 and thus enabling excellent regioselective control.钌催化吲哚选择性C4 C-H磷酸化及其机理研究。
磷酸化吲哚是药物化学和功能材料中有价值的基序,因其高效和选择性的合成而备受关注。我们首次报道了钌催化吲哚C4位点的直接C-H磷酸化,而不需要C2和C3的预保护。该策略能够高效构建结构多样化的磷酸化吲哚衍生物,并通过一锅脱保护序列以高产量提供无氮磷磷酸化吲哚。密度泛函理论(DFT)研究表明,大体积n取代基的空间效应是C4选择性的关键驱动力,有效抑制C2和C3的竞争激活途径,从而实现良好的区域选择性控制。
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来源期刊
Organic Letters
化学-有机化学
CiteScore
9.30
自引率
11.50%
发文量
1607
审稿时长
1.5 months
期刊介绍:
Organic Letters invites original reports of fundamental research in all branches of the theory and practice of organic, physical organic, organometallic,medicinal, and bioorganic chemistry. Organic Letters provides rapid disclosure of the key elements of significant studies that are of interest to a large portion of the organic community. In selecting manuscripts for publication, the Editors place emphasis on the originality, quality and wide interest of the work. Authors should provide enough background information to place the new disclosure in context and to justify the rapid publication format. Back-to-back Letters will be considered. Full details should be reserved for an Article, which should appear in due course.
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