1969
DOI: 10.1021/jo01263a025
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Arylation of aromatic compounds by electrochemical reduction of benzenediazonium tetrafluoroborate in aprotic solvents

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Cited by 40 publications
(20 citation statements)
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“…Figure S3 shows the absorbance of the diazonium salt which does not significantly change in the presence of DNA (the slight absorbance decrease is mainly due to its instability in water): this strongly suggest no reactivity of the salt with DNA. The exclusive reactivity of diazonium salts with SWCNTs exists because of an electron is transferred from the nanotube to the diazonium functionality, releasing N 2 and forming a reactive aryl radical which further reacts with the carbon nanotube; it is possible to produce the same radical electrolytically reducing diazonium salts …”
Section: Figurementioning
confidence: 99%
“…Figure S3 shows the absorbance of the diazonium salt which does not significantly change in the presence of DNA (the slight absorbance decrease is mainly due to its instability in water): this strongly suggest no reactivity of the salt with DNA. The exclusive reactivity of diazonium salts with SWCNTs exists because of an electron is transferred from the nanotube to the diazonium functionality, releasing N 2 and forming a reactive aryl radical which further reacts with the carbon nanotube; it is possible to produce the same radical electrolytically reducing diazonium salts …”
Section: Figurementioning
confidence: 99%
“…2 2 9~ + 0.314) V vs. sce These findings led to electrochemical techniques for arylations (2) and Pschorr reactions (3). The positive reduction potentials agree well with the strong electrophilicity of diazotized aromatic amines (4).…”
Section: Introductionmentioning
confidence: 64%
“…This can hardly be true for the series of aldehydes, nitro compounds, and diazonium salts -1 as described in Fig. 1, which would be expected to obey the Born equation (8) [2] where the symbols…”
Section: Discussion -3mentioning
confidence: 99%
“…Electron-withdrawing substituents on the aryl moiety increase the redox potential of diazonium salts, favouring thereby, the homolytic C À N bond cleavage. Electrochemical, [37] photo-induced [38] and metal-catalyzed reductions are the main pathways for generating aryl radicals from diazonium salts. The role of the counterion in the redox process has not been rationalized nor thoroughly studied although one can expect that it does not act as a spectator regarding the reaction outcome.…”
Section: Arenediazonium Saltsmentioning
confidence: 99%