Neeraj Kumar Mishra scite author profile

The linear or branched allyl moieties on aromatic rings are well-known as ubiquitous structural motifs found in a range of natural products and medicinally relevant molecules. They also represent an important class of organic intermediates for the transformation of an olefin group into many useful functional groups. Established methods for the installation of allylic groups rely primarily on nucleophilic substitution or transmetalation of aryl metal complexes to allyl electrophiles, Lewis acid-mediated Friedel−Crafts allylation of electron-rich arenes, and Tsuji−Trost allylation reactions with π-allyl species. Complementing previous protocols, the transition metal-catalyzed allylation reactions via C−H activation strategy using various allylic surrogates like allylic acetates, allylic carbonates, allylic phosphonates, allylic halides, allylic alcohols, vinyl oxiranes, allenes, 1,3-dienes, and others have recently emerged as a powerful tool for creating the corresponding allyl, crotyl and prenyl moieties. This review, which includes all reported methods in the literature until the beginning of 2017, focuses on recent progress on direct allylation reactions of aromatic and vinylic C(sp 2 )−H bonds with allylic sources and various transition metal catalysts.

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Cu-nanoparticle catalyzed O-arylation of phenols with aryl halides via Ullmann coupling

Kidwai

Mishra

Bansal

et al. 2007

Tetrahedron Letters

121

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Rhodium-Catalyzed [3 + 2] Annulation of Cyclic N-Acyl Ketimines with Activated Olefins: Anticancer Activity of Spiroisoindolinones

et al. 2016

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The rhodium(III)-catalyzed redox-neutral coupling reaction of N-acyl ketimines generated in situ from 3-hydroxyisoindolinones with various activated olefins is described. This approach leads to the synthesis of bioactive spiroisoindolinone derivatives in moderate to high yields. In the case of internal olefins such as maleimides, maleates, fumarates, and cinnamates, spiroindanes were obtained by the [3 + 2] annulations reaction. In sharp contrast, acrylates and quinones displayed the β-H elimination followed by Prins-type cyclization furnishing spiroindenes. The synthetic compounds were evaluated for in vitro anticancer activity against androgen-sensitive human prostate adenocarcinoma cells (LNCaP), human prostate adenocarcinoma cells (DU145), human endometrial adenocarcinoma cells (Ishikawa), human breast cancer cell (MCF-7), and triple negative human breast cancer cells (MDA-MB-231). Notably, quinone-containing spiroindenes displayed potent anticancer activity about 2- to 3-fold stronger than that of anticancer agent doxorubicin.

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Rhodium(III)‐Catalyzed Selective CH Cyanation of Indolines and Indoles with an Easily Accessible Cyano Source

et al. 2015

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Rhodium(III)-Catalyzed C(sp³)–H Alkylation of 8-Methylquinolines with Maleimides

et al. 2016

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