Migrative Carbofluorination of Saturated Amides Enabled by Pd-Based Dyotropic Rearrangement

Yang, Guoqiang; Wu, Hua; Gallarati, Simone; Corminbœuf, Clémence; Wang, Qian; Zhu, Jieping

doi:10.1021/jacs.2c06578

Cited by 17 publications

(11 citation statements)

References 51 publications

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“…Functionalized methyleneadamantanones 17a to 17d (R = COOH and OH, X = H, H and O) were likewise transformed to homoadamantanones 18a to 18d. Benzocyclooctan-7-one (20), which is difficult to access by conventional cyclization methods, was obtained in good yield through ring expansion of 7-methylenebenzocycloheptane (19). Finally, ring expansion of macrocycles proceeded smoothly, generating the 13-and 16-membered cycloalkanones 22 and 24 from the 12-and 15-membered methylenecycloalkanes 21 and 23, respectively, in good yields.…”

Section: Reaction Scopementioning

confidence: 99%

Oxidative rearrangement of 1,1-disubstituted alkenes to ketones

Feng

Wang

Zhu

2023

Science

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The Wacker process, which is widely used to convert monosubstituted alkenes into the corresponding methyl ketones, is thought to proceed through a Pd II /Pd 0 catalytic cycle involving a β-hydride elimination step. This mechanistic scenario is inapplicable to the synthesis of ketones from the 1,1-disubstituted alkenes. Current approaches based on semi -pinacol rearrangement of Pd II intermediates are limited to the ring expansion of highly strained methylene cyclobutane derivatives. Herein, we report a solution to this synthetic challenge by designing a Pd II /Pd IV catalytic cycle incorporating a 1,2-alkyl/Pd IV dyotropic rearrangement as a key step. This reaction, compatible with a broad range of functional groups, is applicable to both linear olefins and methylene cycloalkanes, including macrocycles. Regioselectivity favors the migration of the more substituted carbon, and a strong directing effect of the β-carboxyl group was also observed.

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Section: Reaction Scopementioning

confidence: 99%

Oxidative rearrangement of 1,1-disubstituted alkenes to ketones

Feng

Wang

Zhu

2023

Science

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“…Finally, a dyotropic rearrangement of int V gives the desired γ-lactone 3a . It should be noted that an alternative pathway cannot be excluded currently; the Pd IV int IV may undergo direct dyotropic rearrangement to generate int V′ , followed by in situ reductive elimination to produce product 3a . Further investigations may provide additional insights into the mechanistic details of the reaction.…”

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confidence: 99%

Access to Amino Lactones through Palladium-Catalyzed Oxyamination with Aromatic Amines as the Nitrogen Source

Liu

Tan

et al. 2023

ACS Catal.

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Although the synthesis of amino lactones with various nitrogen sources has achieved great success, variants focused on aromatic amine counterparts still remain elusive. Herein, we communicate the intermolecular oxyamination reaction of aromatic amines and unactivated alkenyl carbonyl compounds under palladium catalysis. In the reaction, both primary and second aromatic amines yield the corresponding β-arylamino-γ-lactones efficiently. A key step in this process involves a Pd II /Pd IV catalytic cycle incorporating a 1,2-(C−N)/(C−O) dyotropic rearrangement. This reaction demonstrates mild reaction conditions and good functional group compatibility.

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“…Dyotropic rearrangement is a process in which two σ-bonds migrate simultaneously. − We have recently discovered that Pd(IV) species, formed via oxidation of the in situ generated C(sp 3 )-Pd(II) complex, can undergo facial 1,2-aryl/Pd(IV) dyotropic rearrangement to afford compounds that are otherwise difficultly accessible. − While a 1,2-rearrangement affords, in its basic form, the constitutional isomer, it can also lead to the ring-expansion/contraction products and topologically different molecules when the migrating groups are embedded in a complex polycyclic system . Therefore, integration of a Pd(IV)-based dyotropic rearrangement into a given transformation is likely to change the product structure significantly.…”

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confidence: 99%

“…Therefore, integration of a Pd(IV)-based dyotropic rearrangement into a given transformation is likely to change the product structure significantly. In our previous studies, we observed that aryl groups have a higher migratory aptitude than that of sp 3 -carbon − and that the migration of more substituted C(sp 3 ) prevails over the less substituted one (Scheme b) in this 1,2-postional exchange process . To fully exploit the synthetic potential of this Pd(IV)-based dyotropic rearrangement, we became interested in examining the relative migratory aptitude of oxygen vs carbon atoms (Scheme c) and Pd(II)-catalyzed cyclization of γ-hydroxyalkenes 1 was deemed to be an ideal reaction to investigate.…”

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confidence: 99%

Diverting the 5-exo-Trig Oxypalladation to Formally 6-endo-Trig Fluorocycloetherification Product through 1,2-O/Pd(IV) Dyotropic Rearrangement

Gong,

Wang,

Zhu

2023

J. Am. Chem. Soc.

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Pd-catalyzed cyclizative functionalization of γ-hydroxyalkenes affords tetrahydrofuran derivatives via a key 5-exo-trig oxypalladation step. Herein, we report a palladium(II)-catalyzed, Selectfluor-mediated formal 6-endo-trig fluorocycloetherification of γ-hydroxyalkenes for the synthesis of functionalized tetrahydropyrans. Mechanistically, an σ-alkyl-Pd(II) intermediate resulting from the 5-exo-trig oxypalladation process is isolated and characterized by X-ray crystallographic analysis. Its oxidation with Selectfluor to Pd(IV) triggers the chemoselective 1,2-O/Pd(IV) dyotropic rearrangement affording, after C−F bond-forming reductive elimination, the tetrahydropyrans with concurrent generation of a tertiary carbon−fluorine bond. The occurrence of this 1,2positional interchange is further evidenced by trapping the rearranged quaternary C(sp 3 )−Pd bond by an internal nucleophile that is materialized by the development of a Pd(II)-catalyzed oxidative bis-heterocyclization of alkenes.

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Migrative Carbofluorination of Saturated Amides Enabled by Pd-Based Dyotropic Rearrangement

Cited by 17 publications

References 51 publications

Oxidative rearrangement of 1,1-disubstituted alkenes to ketones

Oxidative rearrangement of 1,1-disubstituted alkenes to ketones

Access to Amino Lactones through Palladium-Catalyzed Oxyamination with Aromatic Amines as the Nitrogen Source

Diverting the 5-exo-Trig Oxypalladation to Formally 6-endo-Trig Fluorocycloetherification Product through 1,2-O/Pd(IV) Dyotropic Rearrangement

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