Chiral‐at‐Metal Rhodium(III) Complex Catalyzed Enantioselective Vinylogous Michael Addition of α,α‐Dicyanoolefins with α,β‐Unsaturated 2‐Acyl Imidazoles

Hu, Liangjian; Lin, Shaoxia; Li, Shiwu; Kang, Qiang; Du, Yu

doi:10.1002/cctc.201901590

Cited by 19 publications

(3 citation statements)

References 65 publications

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“…Scheme a displays that Λ- M66 at a loading of 0.2 mol % catalyzes the enantioselective α-amination of 2-acyl imidazole 101 with dibenzyl azodicarboxylate ( 104 ) to provide the α-amination product ( R )- 105 with 88% yield and 96% ee . Meggers, Gong, and particularly Kang and Du demonstrated the versatility of Λ- and Δ- M66 and its derivatives to serve as chiral Lewis acid catalysts for a large variety of reactions. − The related benzothiazole complexes Λ- and Δ- M67 , which are the lighter congeners of iridium-based Λ- and Δ- M65 and its derivatives, are for many applications even more powerful chiral Lewis acids providing typically higher enantioselectivities. − Importantly, compared to the related bis-cyclometalated iridium catalysts, the rhodium catalysts feature much higher ligand exchange rates by several orders of magnitude . This is a significant advantage because ligand exchange reaction (e.g., coordination of substrate and release of product) are often the rate limiting steps in a catalytic cycle and, thus, determine the overall turnover frequency.…”

Section: Stereogenic-at-metal Catalysts From Solely Achiral or Optica...mentioning

confidence: 99%

Metal Stereogenicity in Asymmetric Transition Metal Catalysis

2023

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Chiral transition metal catalysts represent a powerful and economic tool for implementing stereocenters in organic synthesis, with the metal center providing a strong chemical activation upon its interaction with substrates or reagents, while the overall chirality of the metal complex achieves the desired stereoselectivity. Often, the overall chiral topology of the metal complex implements a stereogenic metal center, which is then involved in the origin of the asymmetric induction. This review provides a comprehensive survey of reported chiral transition metal catalysts in which the metal formally constitutes a stereocenter. A stereogenic metal center goes along with an overall chiral topology of the metal complex, regardless of whether the ligands are chiral or achiral. Implications for the catalyst design and mechanism of asymmetric induction are discussed for half-sandwich, tetracoordinated, pentacoordinated, and hexacoordinated chiral transition metal complexes containing a stereogenic metal center. The review distinguishes between chiral metal catalysts originating from the coordination to chiral ligands and those which are solely composed of optically inactive ligands (achiral or rapidly interconverting enantiomers) prior to complexation (dubbed “chiral-at-metal” catalysts).

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Section: Stereogenic-at-metal Catalysts From Solely Achiral or Optica...mentioning

confidence: 99%

Metal Stereogenicity in Asymmetric Transition Metal Catalysis

2023

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“…To the best of our knowledge, the catalytic asymmetric domino Michael/aldol reaction-initiated ring-closure reaction for the diastereo- and enantioselective construction of three contiguous stereocenters tertiary α-hydroxylation cyclic ketones with arylpropane-1,2-diones and α,β-unsaturated ketones has not been reported yet. As part of our ongoing interest in chiral-at-metal complexes developing a new synthetic methodology, , herein we report an enantioselective annulation reaction of arylpropane-1,2-diones with α,β-unsaturated 2-acyl imidazoles catalyzed by chiral-at-metal Rh (III) complexes or Ir (III) complexes.…”

Section: Introductionmentioning

confidence: 99%

Asymmetric Synthesis of Tertiary α-Hydroxylation-Cyclopentanones via Synergetic Catalysis of Chiral-at-Metal Rhodium(III) Complexes/Pyrrolidine

Pian,

Zhao,

Zhao

et al. 2023

J. Org. Chem.

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Catalytic and asymmetric domino Michael/aldol reaction of 1,2-dicarbonyl compounds with α,β-unsaturated ketones under the synergetic catalysis of chiral-at-metal rhodium complexes and pyrrolidine to deliver tertiary α-hydroxylationcyclopentanones (45−89% yields with 81−99% ee and up to >20:1 dr) bearing three contiguous stereogenic centers had been established. Moreover, the scalability and practical utility of this protocol were well demonstrated by employing a gram-scale reaction and some representative transformations.

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“…Although the previous research has left a deep impression on us, not all existing ligands could meet every reaction, so the development of a novel type of highly efficient chiral C 2-symmetric N -dioxides catalyst was still needed. Inspired by previous research and combined with our experience in developing chiral-at-metal Rh(III) complexes, herein we designed and synthesized a new tetradentate C 2-symmetric chiral bipyridine- N , N ′-dioxides ligand and successfully applied them to synthesize chiral pyrazolo[3,4- b ]pyridine analogues (Scheme ). …”

mentioning

confidence: 99%

Bipyridine-N,N′-dioxides Catalysts: Design, Synthesis, and Application in Asymmetric Synthesis of 1H-Pyrazolo[3,4-b]pyridine Analogues

Zhu,

Tian,

Liu

et al. 2024

Org. Lett.

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A novel type of highly efficient chiral C2-symmetric bipyridine-N,N′-dioxides ligand application in catalyzing Michael addition/Cyclization of 5-aminopyrazoles with α,β-unsaturated 2acyl imidazoles has been developed, affording the corresponding adducts in 85−97% yield with up to 99% enantioselectivity under mild conditions with a lower catalyst loading and broad scope. Remarkably, this protocol exhibits advantages in terms of reactivity and enantioselectivity, giving the fact that as low as 2.2 mol % of L1 and 2.0 mol % of Ni(OTf) 2 can promote the title reaction on gram scale to afford the desired product with excellent enantioselectivity.

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Chiral‐at‐Metal Rhodium(III) Complex Catalyzed Enantioselective Vinylogous Michael Addition of α,α‐Dicyanoolefins with α,β‐Unsaturated 2‐Acyl Imidazoles

Cited by 19 publications

References 65 publications

Metal Stereogenicity in Asymmetric Transition Metal Catalysis

Metal Stereogenicity in Asymmetric Transition Metal Catalysis

Asymmetric Synthesis of Tertiary α-Hydroxylation-Cyclopentanones via Synergetic Catalysis of Chiral-at-Metal Rhodium(III) Complexes/Pyrrolidine

Bipyridine-N,N′-dioxides Catalysts: Design, Synthesis, and Application in Asymmetric Synthesis of 1H-Pyrazolo[3,4-b]pyridine Analogues

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