Amidyl Radical Directed Remote Allylation of Unactivated sp<sup>3</sup> C−H Bonds by Organic Photoredox Catalysis

Wu, Kui; Wang, Lushun; Colón-Rodríguez, Sonivette; Flechsig, Gerd‐Uwe; Wang, Ting

doi:10.1002/anie.201811004

Cited by 101 publications

(47 citation statements)

References 108 publications

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“…This strategy offers a marvelous pathway to selectively achieve mild C–H bond cleavage and C–X (X = halides) and C–N bond formation 19 . Furthermore, interrupted HLF reactions using electron-deficient alkenes 23–27 , vinyl boronic acids 28,29 , allyl sulfones 30 , allylic chlorides 31 , etc. 32,33 as carbon-centered radical traps open a new window for remote C(sp 3 )–C bond formation.…”

Section: Introductionmentioning

confidence: 99%

Site-selective remote C(sp3)–H heteroarylation of amides via organic photoredox catalysis

Chen¹,

Fan²,

Yuan³

et al. 2019

Nat Commun

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Radical translocation processes triggered by nitrogen-centered radicals (NCRs), such as 1,5-hydrogen atom transfers (1,5-HAT), demonstrated by the well-established Hofmann-Löffler-Freytag (HLF) reaction, provide an attractive approach for the controllable and selective functionalization of remote inert C(sp3)–H bonds. Here we report an amidyl radical-triggered site-selective remote C(sp3)–H heteroarylation of amides under organic photoredox conditions. This approach provides a mild and highly regioselective reaction affording remote C(sp3)–H heteroarylated amides at room temperature under transition-metal free, weakly basic, and redox-neutral conditions. Non-prefunctionalized heteroarenes, such as purines, thiazolopyridines, benzoxazole, benzothiazoles, benzothiophene, benzofuran, thiazoles and quinoxalines, can be alkylated directly. Sequential and orthogonal C–H functionalization of different heteroarenes by taking advantage pH value or polarity of radicals has also been achieved. DFT calculations explain and can predict the site-selectivity and reactivity of this reaction. This strategy expands the scope of the Minisci reaction and serves as its alternative and potential complement.

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Section: Introductionmentioning

confidence: 99%

Site-selective remote C(sp3)–H heteroarylation of amides via organic photoredox catalysis

Chen¹,

Fan²,

Yuan³

et al. 2019

Nat Commun

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“…However, recently, the first examples of d C-C formation have been enabled by intercepting this radical translocation to afford acyclic, d-functionalized amides. [11][12][13][14][15][16][17][18][19][20] Nonetheless, development of enantioselective methods for termination of an HAT pathway remains an ongoing challenge [21][22][23][24] -both for the classic d C-H amination as well as for recent interrupted methods for d C-H functionalization. In fact, with the exception of a single example of d C-H arylation from our lab (65% ee), 25 all known remote C-H functionalizations via N-radical relays are racemic.…”

Section: Introductionmentioning

confidence: 99%

Chiral Piperidines from Acyclic Amines via Enantioselective, Radical-Mediated δ C–H Cyanation

Zhang

Nagib

2019

Chem

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Piperidines are the most prevalent heterocycle found in medicines. Yet, although they are often chiral, there remain no robust methods for their asymmetric syntheses. To solve this challenge, we have interrupted the century-old Hofmann-Lö ffler-Freytag (HLF) reaction to afford this privileged heterocycle. The catalytic, regio-, and enantioselective d C-H cyanation of acyclic amines described here, incorporates a carbonyl equivalent selectively at the d position. This d C-H cyanation is enabled by a chiral Cu catalyst, which both initiates and terminates intramolecular hydrogen atom transfer (HAT) by an N-centered radical relay mechanism. The broad scope and utility of this highly enantioselective method for d C-C formation is presented, as well as conversion of the resulting enantioenriched d-amino nitriles to a family of chiral piperidines. Experiments probing the chemo-, regio-, and enantio-selectivity of this HAT mechanism are also included to enable extension to other stereoselective d C-H functionalizations.

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“…The amidyl radical formed upon fragmentation of 28 – 1 •– gave rise to a tertiary radical upon 1,5-HAT, allowing the remote allylation, forming 28 – 2 in 75% yield. 191 …”

Section: Formation Of a C(sp 3 )-C Bondmentioning

confidence: 99%

Generation of Alkyl Radicals: From the Tyranny of Tin to the Photon Democracy

2020

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Alkyl radicals are key intermediates in organic synthesis. Their classic generation from alkyl halides has a severe drawback due to the employment of toxic tin hydrides to the point that “flight from the tyranny of tin” in radical processes was considered for a long time an unavoidable issue. This review summarizes the main alternative approaches for the generation of unstabilized alkyl radicals, using photons as traceless promoters. The recent development in photochemical and photocatalyzed processes enabled the discovery of a plethora of new alkyl radical precursors, opening the world of radical chemistry to a broader community, thus allowing a new era of photon democracy.

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Amidyl Radical Directed Remote Allylation of Unactivated sp³ C−H Bonds by Organic Photoredox Catalysis

Cited by 101 publications

References 108 publications

Site-selective remote C(sp3)–H heteroarylation of amides via organic photoredox catalysis

Site-selective remote C(sp3)–H heteroarylation of amides via organic photoredox catalysis

Chiral Piperidines from Acyclic Amines via Enantioselective, Radical-Mediated δ C–H Cyanation

Generation of Alkyl Radicals: From the Tyranny of Tin to the Photon Democracy

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Amidyl Radical Directed Remote Allylation of Unactivated sp3 C−H Bonds by Organic Photoredox Catalysis

Cited by 101 publications

References 108 publications

Site-selective remote C(sp3)–H heteroarylation of amides via organic photoredox catalysis

Site-selective remote C(sp3)–H heteroarylation of amides via organic photoredox catalysis

Chiral Piperidines from Acyclic Amines via Enantioselective, Radical-Mediated δ C–H Cyanation

Generation of Alkyl Radicals: From the Tyranny of Tin to the Photon Democracy

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Amidyl Radical Directed Remote Allylation of Unactivated sp³ C−H Bonds by Organic Photoredox Catalysis