Electroreductive Cross‐Electrophile Coupling (eXEC) Reactions

Liu, Yaowen; Li, Pengfei; Wang, Yanwei; Qiu, Youai

doi:10.1002/anie.202306679

Cited by 50 publications

(30 citation statements)

References 91 publications

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“…In 2022, a seminal report from the Sevov group implemented a synergistic dual ligand strategy into electroreductive XEC to allow the coupling of a previously incompatible pair of electrophiles (Figure B) . In the reaction, 10 mol % NiCl 2 DME/ i PrQ ( L10 ) and 10 mol % (bpp)MnCl 2 delivered a broad scope of coupling products from aryl- and alkenyl (pseudo)halides with tertiary alkyl bromides.…”

Section: Ni/pn-catalyzed Cross-couplingsmentioning

confidence: 99%

P,N Ligand in Ni-Catalyzed Cross-Coupling Reactions: A Promising Tool for π-Functionalization

Bae,

Cho

2023

ACS Catal.

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Bidentate P,N ligands, integrating phosphine and nitrogen donors, are highlighted for their versatile characteristics, offering both electronic and steric tunability. Their hemilabile nature, coupled with the ability to modulate both electronic and steric properties through the choice of donor atoms and substituents, has expanded the horizons of chemical transformations. This Review focuses on Nicatalyzed cross-coupling reactions mediated by P,N ligands. The asymmetrical nature of P,N ligands, with each donor atom playing a specific role in the catalytic cycle, offers control, stability, and unique regioselectivity in catalytic processes. In particular, the Ni/P,N-catalytic system exhibits remarkable reactivity with πsubstrates including alkenes, alkynes, and allenes. A thorough mechanistic understanding of these processes offers insights into the trends and future directions in Ni/P,N-catalyzed cross-coupling reactions.

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Section: Ni/pn-catalyzed Cross-couplingsmentioning

confidence: 99%

P,N Ligand in Ni-Catalyzed Cross-Coupling Reactions: A Promising Tool for π-Functionalization

Bae,

Cho

2023

ACS Catal.

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“…On the other hand, sustainable electrochemical organic synthesis has been recognized as an important tool in heterocycle constructions. , Recently, elegant electrochemical C–H phosphorylation was achieved by Lei, Ackermann, Xu, and others . However, to the best of my knowledge, there are few reports regarding the electrochemical cyclic enol phosphonate synthesis .…”

Section: Introductionmentioning

confidence: 99%

Transition-Metal-Free Electrochemical Selenylative Cyclization of Alkynyl Phosphonates

Li,

Zhou,

et al. 2023

J. Org. Chem.

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Unprecedented regioselective electrochemical tandem selenation/ cyclization of alkynyl phosphonates with diselenide is described here. These obtained selenoether products can be chemo-selectively converted into halogenfunctionalized cyclic enol phosphonates under our electrochemical conditions. These protocols provide straightforward access to valuable cyclic enol phosphonate or phosphaisocoumarins under the electrochemical and transitionmetal-free conditions. The robustness of these transformations was illustrated by their compatibility with various complex natural products and bioactive molecules. The selenoether and halogen functional groups allow the further diversification of the phosphorus heterocycles thus obtained.

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“…Such methods bypass the use of premetalated C -nucleophiles, which are often hazardous and expensive. In an outgrowth of this work, the first carbonyl reductive couplings of aryl halides beyond discrete arylmetal nucleophiles or metallic reductants were discovered, along with related formate-mediated reactions of vinyl halides or triflates. , The ability to exploit sp 2 halides as aryl- and vinylmetal pronucleophiles in formate-mediated carbonyl addition impelled investigations into “cross-electrophile reductive couplings”an emerging class of C–C couplings that typically require elemental zinc or manganese as the terminal reductants. − Here, we report formate-mediated reductive cross-couplings of vinyl triflates with aryl iodides, which, unlike long-standing palladium(0)-catalyzed cross-couplings of vinyl triflates, , result in cine -substitution through a deoxygenative Heck-type pathway (Figure ). − Our collective data corroborate a mechanism in which Pd(OAc) 2 and Bu 4 NI form the dianionic iodide-bridged dimer [Pd 2 I 6 ][NBu 4 ] 2 , which, under reducing conditions, serves as a reservoir for the active palladium(I) complex [Pd 2 I 4 ][NBu 4 ] 2 .…”

mentioning

confidence: 99%

Palladium(I)-Iodide-Catalyzed Deoxygenative Heck Reaction of Vinyl Triflates: A Formate-Mediated Cross-Electrophile Reductive Coupling with cine-Substitution

Chang,

Shen,

Shezaf

et al. 2023

J. Am. Chem. Soc.

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The first deoxygenative Heck reactions are described, as illustrated by formate-mediated cine-substitutions of vinyl triflates with aryl iodides. The collective data corroborate a mechanism in which Pd(OAc)2 and Bu4NI form the dianionic iodide-bridged dimer [Pd2I6][NBu4]2, which, under reducing conditions, serves as a precursor to the palladium(I) complex [Pd2I4][NBu4]2. Dinculear oxidative addition of aryl iodide forms [Pd2I5(Ar)][NBu4]2, which dissociates to the monometallic complex [PdI2(Ar)][NBu4]. Vinyl triflate migratory insertion–sulfonate elimination delivers a palladium(IV) carbene, which upon β-hydride elimination/C–H reductive elimination gives the product of cine-substitution. These processes are the first efficient formate-mediated cross-electrophile reductive couplings beyond carbonyl addition.

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Electroreductive Cross‐Electrophile Coupling (eXEC) Reactions

Cited by 50 publications

References 91 publications

P,N Ligand in Ni-Catalyzed Cross-Coupling Reactions: A Promising Tool for π-Functionalization

P,N Ligand in Ni-Catalyzed Cross-Coupling Reactions: A Promising Tool for π-Functionalization

Transition-Metal-Free Electrochemical Selenylative Cyclization of Alkynyl Phosphonates

Palladium(I)-Iodide-Catalyzed Deoxygenative Heck Reaction of Vinyl Triflates: A Formate-Mediated Cross-Electrophile Reductive Coupling with cine-Substitution

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