Regiospecific Palladium-Catalyzed Cross-Coupling Reactions Using the Operational Equivalent of 1,3-Dilithiopropyne

Cabezas, Jorge A.; Ferllini, Natasha

doi:10.1055/s-0039-1690895

Cited by 5 publications

(1 citation statement)

References 36 publications

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“…In 1975, Cassar and Heck revealed a palladium‐catalyzed cross‐coupling reaction of acetylides, produced inside the reaction mixture terminal alkynes and sodium methoxide or trimethylamine (TMA), with aryl halides. [ 6–9 ] Chemists discovered that the application of copper co‐catalyst shows a critical quickening impact within sight of triethylamine almost at the same time. [ 10,11 ] This well‐known protocol, which is called, Sonogashira or Sonogashira–Hagihara coupling/reaction, is at present one of the best applicable methods for alkynylation of 1‐alkenyl halide and aryl halides.…”

Section: Introductionmentioning

confidence: 99%

Markovnikov versus anti‐Markovnikov addition and C–H activation: Pd–Cu synergistic catalysis

Ullah

Thomas²

2020

Applied Organom Chemis

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Copper-and palladium-mediated transmetalation and coupling reactions are the backbone to several synthetic methodologies in organic chemistry for CC bond formation. Computer-aided simulations using density functional theory (DFT) (B3LYP-D3 functional with 6-31G** and effective core potential (ECP)-LACVP** for heavy atoms for optimizations and cc-pVTZ(−f) and ECP-LACV3P** for single-point calculations) was used to shed light on the probable mechanism of a novel synergistic Cu/Pd catalysts for the coupling of alkene, (Bpin)2 (where, pin = pinacolate), and vinyl-or aryl-halogenated analogues. Every single conceivable pathway was carefully contemplated, and the base minimum energy pathway was found effectively. The copper-catalyzed nucleophilic generation yields anti-Markovnikov product using styrene as an alkene. This study affirms quantitatively and accurately how the reaction proceeds and at which steps of the synergistic catalysis the demand of the transmetalation and nucleophile formation for the CC coupling using phosphine ligands arise. We conclude that the E and Z selectivity depends on the stereochemistry of the substrates used.

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Section: Introductionmentioning

confidence: 99%

Markovnikov versus anti‐Markovnikov addition and C–H activation: Pd–Cu synergistic catalysis

Ullah

Thomas²

2020

Applied Organom Chemis

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Photocatalytic Decarboxylative Functionalization of Cyclopropenes via Cyclopropenium Cation Intermediates

Smyrnov,

Waser

2024

Angewandte Chemie

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A photocatalytic decarboxylative functionalization of cyclopropenes is reported. Starting from a broad range of redox‐active ester‐substituted cyclopropenes, cyclopropenylphthalimides can be synthesized in the absence of a nucleophile. Alternatively, different carbon and heteroatom nucleophiles can be introduced. The transformation proceeds most probably through the formation of an aromatic cyclopropenium cation, followed by trapping with the nucleophiles.

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Photocatalytic Decarboxylative Functionalization of Cyclopropenes via Cyclopropenium Cation Intermediates

Smyrnov,

Waser

2024

Angew Chem Int Ed

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Regiospecific Palladium-Catalyzed Cross-Coupling Reactions Using the Operational Equivalent of 1,3-Dilithiopropyne

Cited by 5 publications

References 36 publications

Markovnikov versus anti‐Markovnikov addition and C–H activation: Pd–Cu synergistic catalysis

Markovnikov versus anti‐Markovnikov addition and C–H activation: Pd–Cu synergistic catalysis

Photocatalytic Decarboxylative Functionalization of Cyclopropenes via Cyclopropenium Cation Intermediates

Photocatalytic Decarboxylative Functionalization of Cyclopropenes via Cyclopropenium Cation Intermediates

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