Multicomponent <i>C</i>‐Alkylation Reactions of Aromatic Aldimines with Trialkylboranes Reagents

Valpuesta, Marı́a; Muñoz, Carmen; Dı́az, A. Navas; Torres, Gregorio; Suau, Rafael

doi:10.1002/ejoc.200901359

Cited by 12 publications

(11 citation statements)

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“…A three component reaction with an aldehyde, an amine and a trialkylborane as a multifunctional reagent has also been reported [88]. The borane exhibits a triple role in this reaction: it serves as a Lewis acid catalyst and facilitates imine formation and further activates the imine towards radical addition by coordination.…”

Section: Addition To Aliphatic Iminium Ionsmentioning

confidence: 99%

Radical Addition to Iminium Ions and Cationic Heterocycles

2014

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Carbon-centered radicals represent highly useful reactive intermediates in organic synthesis. Their nucleophilic character is reflected by fast additions to electron deficient C=X double bonds as present in iminium ions or cationic heterocycles. This review covers diverse reactions of preformed or in situ-generated cationic substrates with various types of C-radicals, including alkyl, alkoxyalkyl, trifluoromethyl, aryl, acyl, carbamoyl, and alkoxycarbonyl species. Despite its high reactivity, the strong interaction of the radical's SOMO with the LUMO of the cation frequently results in a high regioselectivity. Intra-and intermolecular processes such as the Minisci reaction, the Porta reaction, and the Knabe rearrangement will be discussed along with transition metal and photoredox catalysis or electrochemical methods to generate the odd-electron species.

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Section: Addition To Aliphatic Iminium Ionsmentioning

confidence: 99%

Radical Addition to Iminium Ions and Cationic Heterocycles

2014

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“…under our standard conditions, and a 58% yield of alkylated product 3a could be obtained (Scheme a). In contrast, employing the H 2 O 2 reaction system in which the alkylborane could be easily oxidized to alkyl radical intermediates, could not afford the desired product 3a (Scheme b). These findings demonstrated that a free radical process was not involved in this transformation.…”

Section: Resultsmentioning

confidence: 98%

Copper‐Catalyzed Addition of Alkylboranes to Iminoacetates: Access to α‐Alkyl Branched α‐Amino Acids

Xiao

Zhang

et al. 2016

Adv Synth Catal

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“…In the presence of oxygen, Et 3 B efficiently produces ethyl radicals that initiate radical chain processes, even at low temperature . Moreover, it can also act as a chain transfer reagent since it undergoes homolytic substitution with aminyl radicals (such an intermediate aminyl radical is expected in our proposed cascade; see Scheme ). Based on the tin-free conditions developed in our group for the radical carboazidation, we first tried to prepare indoline 2a from azide 1a and iodide 4 in the presence of an excess of Et 3 B in EtOH/H 2 O.…”

mentioning

confidence: 93%

Synthesis of Indolines, Indoles, and Benzopyrrolizidinones from Simple Aryl Azides

Brucelle

Renaud

2012

Org. Lett.

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Multicomponent C‐Alkylation Reactions of Aromatic Aldimines with Trialkylboranes Reagents

Abstract: The one-pot three-component reaction of an aryl aldehyde, an arylamine, and a trialkylborane in the presence of hydrogen peroxide afforded the alkylated arylamines 1 in good

Cited by 12 publications

References 28 publications

Radical Addition to Iminium Ions and Cationic Heterocycles

Radical Addition to Iminium Ions and Cationic Heterocycles

Copper‐Catalyzed Addition of Alkylboranes to Iminoacetates: Access to α‐Alkyl Branched α‐Amino Acids

Synthesis of Indolines, Indoles, and Benzopyrrolizidinones from Simple Aryl Azides

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