Thioether-Directed NiH-Catalyzed Remote γ-C(sp³)–H Hydroamidation of Alkenes by 1,4,2-Dioxazol-5-ones

Abstract: A NiH-catalyzed thioether-directed cyclometalation strategy is developed to enable remote methylene C–H bond amidation of unactivated alkenes. Due to the preference for five-membered nickelacycle formation, the chain-walking isomerization initiated by the NiH insertion to an alkene can be terminated at the γ-methylene site remote from the alkene moiety. By employing 2,9-dibutyl-1,10-phenanthroline (L4) as the ligand and dioxazolones as the reagent, the amidation occurs at the γ-C­(sp3)–H bonds to afford the am… Show more

“…This strategy is general and reliable and a large variety of electrophiles can be employed as coupling partners, which allows the stereochemically controlled formation of a variety of carbon–carbon 36 – 55 and carbon–heteroatom 56 – 65 bonds. Very recently, Seo and Chang 60 , 64 , Yu 63 , and our group 61 have demonstrated that dioxazolones are suitable electrophilic amidating reagents in NiH-catalysed reductive hydroamidation reactions. We envisioned that NiH-catalysed asymmetric hydrofunctionalization could be expanded to the asymmetric hydroamidation of alkenyl boronates with dioxazolones 30 , 60 – 64 , thus enabling the direct synthesis of a variety of enantioenriched α-aminoboronates which have high potential in medicinal chemistry.…”

Enantioselective synthesis of α-aminoboronates by NiH-catalysed asymmetric hydroamidation of alkenyl boronates

“…This strategy is general and reliable and a large variety of electrophiles can be employed as coupling partners, which allows the stereochemically controlled formation of a variety of carbon–carbon 36 – 55 and carbon–heteroatom 56 – 65 bonds. Very recently, Seo and Chang 60 , 64 , Yu 63 , and our group 61 have demonstrated that dioxazolones are suitable electrophilic amidating reagents in NiH-catalysed reductive hydroamidation reactions. We envisioned that NiH-catalysed asymmetric hydrofunctionalization could be expanded to the asymmetric hydroamidation of alkenyl boronates with dioxazolones 30 , 60 – 64 , thus enabling the direct synthesis of a variety of enantioenriched α-aminoboronates which have high potential in medicinal chemistry.…”

Enantioselective synthesis of α-aminoboronates by NiH-catalysed asymmetric hydroamidation of alkenyl boronates

“…However, several challenges appeared considerably daunting: (1) undesired competitive cross-coupling between arylboron and electrophilic thiolation reagents, 16 (2) competitive β-H elimination from the alkyl nickel species, and (3) catalyst deactivation caused by sulfur coordination. 17 Herein, we report a Ni-catalyzed regioselective 1,2-carbosulfenylation of homoallylic amines with arylboronic acids and aryl disulfides under the assistance of bidentate PA auxiliary. This new protocol exhibits excellent functional group tolerance and is compatible with α-substituted terminal alkenes and internal alkenes.…”

“…However, several challenges appeared considerably daunting: (1) undesired competitive cross-coupling between arylboron and electrophilic thiolation reagents, 16 (2) competitive β-H elimination from the alkyl nickel species, and (3) catalyst deactivation caused by sulfur coordination. 17…”

Regioselective 1,2-carbosulfenylation of unactivated alkenesviadirected nickel catalysis

“…Based on precedents, Lu and Fu reported an aminoquinoline directed nickel‐catalyzed alkene hydroalkylation, and adjustments to the reaction ligands resulted in the switching on and off of alkylnickel chain‐walking [11] . In addition, regiodivergent alkene hydroamination/hydroamidation by the chain‐walking of a nickel‐hydride species has also been realized, and ligand‐controlled regiodivergence is state of the art [5b, 12] …”

Nickel‐Catalyzed Switchable Site‐Selective Alkene Hydroalkylation by Temperature Regulation**