Highly stereoselective spirocyclopropanation of various diazooxindoles with olefins catalyzed using Ru(<scp>ii</scp>)-complex

Tone, Masaya; Nakagawa, Yoko; Chanthamath, Soda; Fujisawa, Ikuhide; Nakayama, Naofumi; Goto, Hitoshi; Shibatomi, Kazutaka; Iwasa, Seiji

doi:10.1039/c8ra09212e

Cited by 22 publications

(6 citation statements)

References 40 publications

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“…35 Iwasa used chiral Ru(II) complex 7 to generate spirocyclopropyl oxindoles with high ee. 36 Ashfeld reported a cyclopropanation/ring expansion cascade reaction between 3-diazooxindoles and vinyl isocyanate, in the case when the temperature was reduced from 50°C to rt, the cyclopropane intermediate could be isolated as one diastereomer. 37 In 2014, Lu and Xiao showed a [3 + 2]-cycloaddition between 3-ylideneoxindoles and in situ generated 2,2,2-trifluorodiazoethane could afford a pyrazoline which upon heating under reflux in toluene would ring contract to afford 3,3′-cyclo-Fig.…”

Section: Spirocyclopropyl Oxindolesmentioning

confidence: 99%

Stereoselective synthesis and applications of spirocyclic oxindoles

2021

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Section: Spirocyclopropyl Oxindolesmentioning

confidence: 99%

Stereoselective synthesis and applications of spirocyclic oxindoles

2021

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“…The high enantioselectivity was a result of π–π interaction between oxindole and the indane ring of ligand VII allowing olefin to approach from only one side. [ 35 ]…”

Section: Synthesis Of Spirocyclopropyl Oxindolesmentioning

confidence: 99%

Syntheses and Applications of Spirocyclopropyl Oxindoles: A Decade Review

2020

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Spirocyclopropyl oxindole represents an emerging framework by unique amalgamation of versatile 2‐oxindole motif and highly strained cyclopropane unit. This scaffold is remarkable for its diverse medicinal and synthetic applications. The present review delivers a comprehensive overview of the strategies to afford spirocyclopropyl oxindoles and their potential synthetic transformations. The syntheses of spirocyclopropyl oxindoles have been described based on the type of precursors, including isatin, 3‐alkenyl oxindole, diazooxindole, oxindole, and 3‐chlorooxindole. Besides, the utility of different cyclopropanation reagents like sulfur ylide, MBH‐carbonate, carbenoid, vinyl selenone, etc. have also been emphasized. Furthermore, various ring‐expansion/opening reactions of spirocyclopropane oxindoles using dipolarophiles/nucleophiles have critically been illustrated.

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“…Dirhodium complexes are bimetallic compounds with one Rh–Rh bond and four bridging ligands at equatorial positions, displaying a unique paddle-wheel structure. − By virtue of the distinct structure and high stability, they exhibited versatile and powerful catalytic properties for a diverse array of carbine transformations of diazocarbony compounds, including cyclopropanation, C–H activation, olefins aziridination, and ylide formation. − The variety of reactions has made dirhodium complexes extremely attractive in the syntheses of important organic compounds as active pharmaceutical ingredients. − In this context, spiro -cyclopropyloxindoles constitute a unique motif of heterocycles with potential applications as potent HIV inhibitor, antitumor agent, and useful building blocks, which can be synthesized by cyclopropanation of diazooxindoles with alkenes employing dirhodium, ruthenium, mercury, and gold catalysts. − Compared to ruthenium, mercury, and gold catalysts, the dirhodium catalysts are more reactive toward alkyl-substituted alkene substrates in the cyclopropanation reaction. − However, the unsatisfactory catalyst recyclability and reusability of homogeneous dirhodium catalysts are the primary restricting factors for their practical application in industrial processes.…”

Section: Introductionmentioning

confidence: 99%

Self-Supported Chiral Dirhodium Organic Frameworks Enables Efficient Asymmetric Cyclopropanation

Li,

Jiang,

Zhu

et al. 2024

ACS Appl. Mater. Interfaces

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The development of heterogeneous chiral dirhodium catalysts for fabricating important bioactive substances and reducing the loss of noble metals has long been of significant interest. However, there still remains formidable synthetic challenges since it requires multiple steps of the synthetic process, and rhodium is easily leached from solid materials during the reaction. Here, we demonstrated a self-supported strategy based on the Suzuki−Miyaura coupling reaction to construct two chiral dirhodium organic frameworks for heterogeneous asymmetric catalysis. The synthetic approach is simple and efficient since it requires only a small number of preparation steps and does not require any catalyst supporting materials. The obtained chiral dirhodium materials can be highly efficient and recyclable heterogeneous catalysts for asymmetric cyclopropanation between diazooxindole and alkenes. Importantly, Rh 2 -MOCP-2 exhibited almost similar catalytic performance compared to homogeneous catalyst Rh 2 (S-Br-NTTL) 4 . The afforded catalytic performance (93.9% yield with 80.9% ee) highly surpasses previous heterogeneous dirhodium catalysts reported to date.

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Highly stereoselective spirocyclopropanation of various diazooxindoles with olefins catalyzed using Ru(ii)-complex

Abstract: Optically active spirocyclopropyloxindole derivatives were efficiently synthesized from diazooxindoles and olefins in the presence of a Ru(ii)-Pheox catalyst.

Cited by 22 publications

References 40 publications

Stereoselective synthesis and applications of spirocyclic oxindoles

Stereoselective synthesis and applications of spirocyclic oxindoles

Syntheses and Applications of Spirocyclopropyl Oxindoles: A Decade Review

Self-Supported Chiral Dirhodium Organic Frameworks Enables Efficient Asymmetric Cyclopropanation

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