Enantioselective γ‐Addition of Pyrazole and Imidazole Heterocycles to Allenoates Catalyzed by Chiral Phosphine

Wang, Haiyang; Guo, Chang

doi:10.1002/ange.201813381

Cited by 15 publications

(10 citation statements)

References 81 publications

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“…Alkoxyallenes 1C and 1H, phenylthioallene 1D, and N-indolylallenes 1E and 1K, as well as different azoles, such as benzotriazole or 1,2,4-triazole, gave, under the optimized conditions and with good to excellent yields, a family of adducts 6 showing the attractive 1,3-bisazole motif, a recurring scaffold in medicinal chemistry 9 and in ligand design for metallic complexes, metal organic and covalent organic frameworks. 10 Metal complexes of Zn 20 and Ag 21 using 6Haa and 6Hcc were readily synthesized, 22 which highlights the synthetic utility of these 1,3-bisazoles incorporating an extra functionality and added complexity, not easy to achieve through conventional procedures, in the field of organometallic chemistry.…”

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confidence: 99%

“…The combination of Pt(II)−Au(I) or Pt(II)− Au(III) in a dual catalysis strategy favored the formation of the distal addition products 2 (see compounds 2La, 2Lc, 2Ld, and 2Ma-c in the Supporting Information), but the double addition was not possible even under harsher conditions with these substrates. 22 When a deactivated allenoic ester 1N was used, 23 isomers 4, from the metal-catalyzed conjugated addition of the azole to the central carbon, were obtained as the only isomers with Au(I)− Pt(II) bimetallic strategy under more forcing conditions (see compounds 4Na, 4Na′, and 4Nc in the Supporting Information). When Au(I)−Pt(IV) was used, double addition to the central carbon was also found in the presence of pyrazole to give adduct 7Naa.…”

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confidence: 99%

“…When Au(I)−Pt(IV) was used, double addition to the central carbon was also found in the presence of pyrazole to give adduct 7Naa. 22 Single catalyst reactions of activated allenes under harsher conditions (excess of azole, longer times, higher temperatures) led to mixtures of isomers 2 and 3 and uncompleted conversions toward 6, highlighting the need for the bimetallic catalysis to provide 1,3-bisazoles efficiently and pointing to compounds 2 and 3 as possible intermediates in the double nucleophilic addition to form 6. 22 Interestingly, 3Aa generated 2Aa in every experiment performed (even in the absence of azole), whereas the reverse process was not observed.…”

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confidence: 99%

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Platinum and Gold Catalysis: à la Carte Hydroamination of Terminal Activated Allenes with Azoles

Alonso

Muñoz

2019

Org. Lett.

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Nucleophilic additions to allenes catalyzed by transition metals represent a powerful tool to get selective access to diverse structures with numerous applications. Reported here is a straightforward methodology to achieve selective addition of azoles to the proximal or distal carbon of activated allenes depending on the catalyst used, unravelling a gold-platinum bimetallic catalysis approach for the 1,3-double addition of azoles to activated allenes to give 1,3-bisazole derivatives, important scaffold in medicinal and organometallic chemistry.

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Platinum and Gold Catalysis: à la Carte Hydroamination of Terminal Activated Allenes with Azoles

Alonso

Muñoz

2019

Org. Lett.

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“…occurs at the β-position of allenoate. [17] As shown in Scheme 3, direct N-functionalization proceeded in the presence of phosphine as catalyst. Low to moderate yields were observed probably because of further [3 + 2] cycloaddition of the generated vinylation products.…”

Section: Resultsmentioning

confidence: 99%

Phosphine‐Catalyzed [3+2] Cycloaddition and Vinylation of Indole‐Derived α,α‐Dicyanoolefins with γ‐Substituted Allenoates

et al. 2019

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A phosphine-catalyzed [3 + 2] cycloaddition of γsubstituted allenoates with α,α-dicyanoolefins has been established, affording indole-incorporated highly functionalized cyclopentenes. In addition, the vinylation of indole-derived α,α-dicyanoolefins has also been realized under the same reaction conditions by switching to indole-derived α,αdicyanoolefins without protective group at N-1 position.with Morita-Baylis-Hillman carbonates affording bicyclic imides with good yields and enantioselectivities. [13] Inspired by recent achievements on allenoates-based cycloadditions, [8][9][10][11][12] we have also developed a strightforward and atomeconomic catalystfree [2 + 2 + 2] annulation of dihydroisoquinolines and allenoates accessing a diverse range of novel dimeric tetrahydroisoquinoline derivatives. [14] On the basis of our previous work and studies of [3 + 2] cycloadditions of allenoates with α,αdicyanoolefins from other groups, we hypothesized that the indole moiety could be easily incorporated into cyclopentene by using indole derived α,α-dicyanoolefins and allenoates as starting material in the presence of phosphine. Herein, we report our development of synthesis of indole-incorporated highly functionalized cyclopentenes through phosphine catalyzed [3 + 2] cycloaddition of γ-substituted allenoates with α,αdicyanoolefins as well as the N-functionalization of indolederived α,α-dicyanoolefins (Scheme 1). 2 3 4 5 6 7 8

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“…Very recently, Guo's group developed an asymmetric γ‐addition of heteroaromatic compounds to allenoates to provide γ‐heteroaryl‐butenoates. [ 100 ] Chiral phosphine ( S )‐ 107 and ( S )‐BINOL were found to catalyze this reaction efficiently, and both pyrazoles and imidazoles could be suitable in this process. γ‐heteroaryl‐butenoates 301 were accessed in good yields with high enantiomeric ratios and regioselectivity (Scheme 82).…”

Section: Addition Of Nucleophiles To Unsaturated Electron‐poor Substrmentioning

confidence: 99%

Asymmetric Reactions Catalyzed by Chiral Tertiary Phosphines

Wei

Shi

2020

Chin. J. Chem.

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Chiral tertiary phosphines are versatile Lewis base catalysts capable of promoting a wide range of asymmetric reactions. In particular, the recent designed chiral phosphines based on the concept of bi-/multifunctionality have been demonstrated to be effective catalysts for many types of asymmetric reactions such as (aza)-MBH reaction/RC reaction, cycloaddition reaction, domino reaction, nucleophilic addition reaction, etc. This review summarizes the recent advances in this field and highlights the selected significant achievements. Dr. Yin Wei (left) received her PhD from Ludwig-Maximilians-Universität in München (Germany) in 2009 under the direction of Professor Hendrik Zipse. Subsequently, she joined in Professor Min Shi's group at Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences (SIOC, CAS), and was promoted as an associate professor in 2012. She has authored over 100 scientific publications, and she is mainly working on the theoretical studies of organocatalysis.

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Enantioselective γ‐Addition of Pyrazole and Imidazole Heterocycles to Allenoates Catalyzed by Chiral Phosphine

Cited by 15 publications

References 81 publications

Platinum and Gold Catalysis: à la Carte Hydroamination of Terminal Activated Allenes with Azoles

Platinum and Gold Catalysis: à la Carte Hydroamination of Terminal Activated Allenes with Azoles

Phosphine‐Catalyzed [3+2] Cycloaddition and Vinylation of Indole‐Derived α,α‐Dicyanoolefins with γ‐Substituted Allenoates

Asymmetric Reactions Catalyzed by Chiral Tertiary Phosphines

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