2016
DOI: 10.1038/nature19811
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Catalytic alkylation of remote C–H bonds enabled by proton-coupled electron transfer

Abstract: Despite significant advances in hydrogen atom transfer (HAT) catalysis,1–5 there are currently no molecular HAT catalysts capable of homolyzing the strong N-H bonds of N-alkyl amides (Figure 1a). The motivation to develop amide homolysis protocols stems from the synthetic utility of the resulting amidyl radicals, which engage in a variety of synthetically useful transformations, including olefin amination6–11 and directed C-H bond functionalization.12–16 The latter process, a subset of the well-known Hofmann-L… Show more

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Cited by 695 publications
(434 citation statements)
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“…More recent studies incorporate photoredox catalysis into the oxidation of NÀHb onds.T he groups of Rovis [129] and Knowles [130] simultaneously and independently disclosed the remote alkylation of unactivated C(sp 3 )ÀHbonds directed by an amide (Scheme 47). In the system developed by Chu and Rovis,t rifluoroacetamide 263 undergoes alkylation at the tertiary C À Hb ond with methyl methacrylate (264)t of orm amide 265.S imilarly,a lkylated product 271 can be obtained from amide 269 with methyl vinyl ketone (270)b yu sing the procedure developed by Knowles and co-workers.I nt he proposed catalytic cycle of these two reactions,t he excited photocatalyst oxidizes amide 258 to yield nitrogen radical 259 in the presence of abase.A1,5-HATand trapping of the alkyl radical 260 with the electrophilic alkene generates aradical in the a-position to an electron-withdrawing group (261).…”
Section: Oxidation Of N à Hb Ondsmentioning
confidence: 99%
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“…More recent studies incorporate photoredox catalysis into the oxidation of NÀHb onds.T he groups of Rovis [129] and Knowles [130] simultaneously and independently disclosed the remote alkylation of unactivated C(sp 3 )ÀHbonds directed by an amide (Scheme 47). In the system developed by Chu and Rovis,t rifluoroacetamide 263 undergoes alkylation at the tertiary C À Hb ond with methyl methacrylate (264)t of orm amide 265.S imilarly,a lkylated product 271 can be obtained from amide 269 with methyl vinyl ketone (270)b yu sing the procedure developed by Knowles and co-workers.I nt he proposed catalytic cycle of these two reactions,t he excited photocatalyst oxidizes amide 258 to yield nitrogen radical 259 in the presence of abase.A1,5-HATand trapping of the alkyl radical 260 with the electrophilic alkene generates aradical in the a-position to an electron-withdrawing group (261).…”
Section: Oxidation Of N à Hb Ondsmentioning
confidence: 99%
“…[169] Theh igher electron density of tertiary alkyl radicals accelerates their trapping with electron-deficient radical partners,t hereby suppressing undesired side reactions.Secondary and primary CÀHb onds are less reactive than their tertiary counterparts, but also can give reasonable yields.U nfortunately,t he functionalization of primary CÀHb onds with hydrogen atom transfer was not demonstrated in the most recent research with photoredox catalysis. [129,130,137] …”
Section: Hydrogen Atom Transfermentioning
confidence: 99%
“…[121] In dem postulierten Katalysezyklus reduziert der Kupfer(I) [122] Die N-Cl-Bindung des Sulfonamids 233 wird durch den angeregten Photokatalysator [Ir(ppy) 2 Neuere Forschungen binden die Photoredoxkatalyse in die Oxidation von N-H-Bindungen ein. Rovis [129] und Knowles [130] …”
Section: Cobaltunclassified
“…Leider wurde die Funktionalisierung primärer C-H-Bindungen durch Wasserstoffatomtransfer mittels Photoredoxkatalyse bisher nicht demonstriert. [129,130,137] …”
Section: Wasserstoffatomtransferunclassified
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