Wen-Tao Zhao scite author profile

Functionalizing specific positions on a saturated alkyl molecule is a key challenge in synthetic chemistry. Herein, a ligand-controlled regiodivergent alkylations of alkyl bromides at different positions by Ni-catalyzed alkyl-alkyl cross-electrophile coupling with the second alkyl bromides has been developed. The reaction undergoes site-selective isomerization on one alkyl bromides in a controlled manner, providing switchable access to diverse alkylated structures at different sites of alkyl bromides. The reaction occurs at three similar positions with excellent chemo-and regioselectivity, representing a remarkable ligand tuned reactivity between alkyl-alkyl cross-coupling and nickel migration along the hydrocarbon side chain. This reaction offers a catalytic platform to diverse saturated architectures by alkyl-alkyl bond-formation from identical starting materials.

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Enantioselective Csp3-Csp3 formation by nickel-catalyzed enantioconvergent cross-electrophile alkyl-alkyl coupling of unactivated alkyl halides

Zhao

Shu

2023

Sci. Adv.

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The pervasive occurrence of saturated stereogenic carbon centers in pharmaceuticals, agrochemicals, functional organic materials, and natural products has stimulated great efforts toward the construction of such saturated carbon centers. We report a reaction mode for the enantioselective construction of alkyl-alkyl bond to access saturated stereogenic carbon centers by asymmetric reductive cross-coupling between different alkyl electrophiles in good yields with great levels of enantioselectivity. This reaction mode uses only alkyl electrophiles for enantioselective C sp3 -C sp3 bond-formation, rendering reductive alkyl-alkyl cross-coupling as an alternative to traditional alkyl-alkyl cross-coupling reactions between alkyl nucleophiles and alkyl electrophiles to access saturated stereogenic carbon centers without the use of organometallic reagents. The reaction displays a broad scope for two alkyl electrophiles with good functional group tolerance. Mechanistic studies reveal that the reaction undergoes a single electron transfer that enabled the reductive coupling pathway to form the alkyl-alkyl bond.

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Ligand-enabled Ni-catalysed enantioconvergent intermolecular Alkyl-Alkyl cross-coupling between distinct Alkyl halides

et al. 2023

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Abstractα-Tertiary aliphatic amides are key elements in organic molecules, which are abundantly present in natural products, pharmaceuticals, agrochemicals, and functional organic materials. Enantioconvergent alkyl-alkyl bond-forming process is one of the most straightforward and efficient, yet highly challenging ways to build such stereogenic carbon centers. Herein, we report an enantioselective alkyl-alkyl cross-coupling between two different alkyl electrophiles to access α-tertiary aliphatic amides. With a newly-developed chiral tridentate ligand, two distinct alkyl halides were successfully cross-coupled together to forge an alkyl-alkyl bond enantioselectively under reductive conditions. Mechanistic investigations reveal that one alkyl halides exclusively undergo oxidative addition with nickel versus in-situ formation of alkyl zinc reagents from the other alkyl halides, rendering formal reductive alkyl-alkyl cross-coupling from easily available alkyl electrophiles without preformation of organometallic reagents.

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Ligand‐Controlled Nickel‐Catalyzed Regiodivergent Cross‐Electrophile Alkyl‐Alkyl Couplings of Alkyl Halides

et al. 2023

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Wen-Tao Zhao

Ligand‐Controlled Nickel‐Catalyzed Regiodivergent Cross‐Electrophile Alkyl‐Alkyl Couplings of Alkyl Halides

Enantioselective Csp3-Csp3 formation by nickel-catalyzed enantioconvergent cross-electrophile alkyl-alkyl coupling of unactivated alkyl halides

Ligand-enabled Ni-catalysed enantioconvergent intermolecular Alkyl-Alkyl cross-coupling between distinct Alkyl halides

Ligand‐Controlled Nickel‐Catalyzed Regiodivergent Cross‐Electrophile Alkyl‐Alkyl Couplings of Alkyl Halides

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