Regio‐ and Stereoselective Chlorocyanation of Alkynes

Barrado, Alejandro G.; Zieliński, A.; Goddard, Richard; Alcarazo, Manuel

doi:10.1002/anie.201705851

Cited by 47 publications

(29 citation statements)

References 47 publications

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“…In both cases, only the Z isomer was formed, thus suggesting a syn-addition pathway for the reaction (Scheme 13). 32 The following mechanism for the chlorocyanation reaction was proposed. Initially, Lewis adduct H which was already partially uorinated at boron was formed by activation of the cyanating reagent 29.…”

Section: Cyanofunctionalization Of Alkynesmentioning

confidence: 99%

Direct cyanation, hydrocyanation, dicyanation and cyanofunctionalization of alkynes

Peng

Wang

et al. 2020

RSC Adv.

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Section: Cyanofunctionalization Of Alkynesmentioning

confidence: 99%

Direct cyanation, hydrocyanation, dicyanation and cyanofunctionalization of alkynes

Peng

Wang

et al. 2020

RSC Adv.

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“…[14] It was not until the introduction of cyanobenziodoxone 7 by Zhdankin and coworkers, [15] and its intensive use by the groups of Waser [16] and others [17] that metal-free electrophilic cyanationa tu nfunctionalized CÀHp ositions of electron-rich organic substrates could be efficiently achieved ( Figure 1). [18] Nature often uses carbocationic cascade cyclizations to produce complex molecular architectures from simple precursors,a nd chemists have been quite successful at transferring this strategy into routine synthesis planning. [18] Nature often uses carbocationic cascade cyclizations to produce complex molecular architectures from simple precursors,a nd chemists have been quite successful at transferring this strategy into routine synthesis planning.…”

mentioning

confidence: 99%

“…We recently contributed to this area with the introduction of the imidazolium thiocyanate 8,which has areactivity profile similar to the one of 7,but is not based on thermally unstable hypervalent I(III) platforms. [18] Nature often uses carbocationic cascade cyclizations to produce complex molecular architectures from simple precursors,a nd chemists have been quite successful at transferring this strategy into routine synthesis planning. [19] Initiation of such cyclizations is often triggered by elimination of aleaving group,the activation of olefins by p-acid catalysts,or the reaction of carbon-carbon double bonds with electrophiles.…”

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confidence: 99%

5‐(Cyano)dibenzothiophenium Triflate: A Sulfur‐Based Reagent for Electrophilic Cyanation and Cyanocyclizations

Golz

Alcarazo

2019

Angewandte Chemie

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The synthesis of 5-(cyano)dibenzothiophenium triflate 9,p repared by activation of dibenzo [b,d]thiophene-5oxide with Tf 2 Oa nd subsequent reaction with TMSCN is reported, and its reactivity as electrophilic cyanation reagent evaluated. The scalable preparation, easy handling and broad substrate scope of the electrophilic cyanation promoted by 9, which includes amines,thiols,silyl enol ethers,alkenes,electron rich (hetero)arenes and polyaromatic hydrocarbons,i llustrate the synthetic potential of this reagent. Importantly,Lewis acid activation of the reagent is not required for the transfer process. We additionally report herein biomimetic cyanocyclization cascade reactions,w hich are not promoted by typical electrophilic cyanation reagents,demonstrating the superior ability of 9 to trigger challenging transformations.Scheme 5. Reaction scope of the electrophilic cyanation-Povarov cascade. Reagents, conditions: a) 9 (1.0-1.5 equiv),r .t.,CH 2 Cl 2 ,3 -36 h; b) 9 (1.5 equiv), r.t.,C H 2 Cl 2 ,1 1-36 h. a Diasteromeric mixture (8:1 ratio);t he second diasteromer only differs in the configuration of the carbon marked (*). Molecular structures of compounds 65 and 70 in the solid state. Anisotropic displacement shown at 50 %p robability level. Only selected hydrogen atoms are shown. [24] Angewandte Chemie

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“…In an attempt to find and develop such new reagents,w e originally focused our attention on the thioimidazolone platform, which has been successfully used in our group to develop the electrophilic cyanation reagents 1 (Figure 1). [14] However,the reactivity of the alkynylation reagents based on thioimidazolones is limited, and when strong nucleophilic Grignard reagents are used, the competitive thioalkynylation occurs exclusively. [15] At that stage we wondered if adibenzothiophenium unit could be employed instead.…”

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5‐(Alkynyl)dibenzothiophenium Triflates: Sulfur‐Based Reagents for Electrophilic Alkynylation

et al. 2018

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The synthesis of a series of 5-(alkynyl) dibenzothiophenium triflates, prepared from dibenzo[b,d]thiophene 5-oxide and the corresponding trimethylsilyl-substituted alkynes is reported. Their structures were determined by X-ray crystallography, and their reactivities as electrophilic alkynylation reagents evaluated. Their broad substrate scope and functional-group tolerance illustrate their potential to become an alternative to the broadly used EBX reagents. Isotope labeling studies reveal that alkynyldibenzothiophenium salts may undergo attack by nucleophiles at either the α- or β-carbon atom depending on the nature of their substitution pattern. Subsequent elimination of the dibenzothiophene unit and 1,2-migration of one of the groups (in case of β-attack) affords the desired alkynes.

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Regio‐ and Stereoselective Chlorocyanation of Alkynes

Cited by 47 publications

References 47 publications

Direct cyanation, hydrocyanation, dicyanation and cyanofunctionalization of alkynes

Direct cyanation, hydrocyanation, dicyanation and cyanofunctionalization of alkynes

5‐(Cyano)dibenzothiophenium Triflate: A Sulfur‐Based Reagent for Electrophilic Cyanation and Cyanocyclizations

5‐(Alkynyl)dibenzothiophenium Triflates: Sulfur‐Based Reagents for Electrophilic Alkynylation

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