Anodic Reactions of Simple Phenolic Compounds

Vermillion, F. J.; Pearl, Irwin A.

doi:10.1149/1.2426012

Cited by 102 publications

(44 citation statements)

References 22 publications

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“…Consequently, a poorly defined film, with continuous structure is formed on the electrode surface. An analogous reaction path was previously proposed for oxidative polymerization of vanillin porphyrins [13], vanillin [14], guaiacol [15], epidotoxin [16] and eugenol [17].…”

Section: Oxidative Electropolymerization Of Curcumin and Ni(ii)curcummentioning

confidence: 68%

“…Moreover, the procedure for their preparation is usually simple and the properties of the resulting coating can be controlled carefully. Electropolymerization procedure was used successfully for modifying electrode surfaces with Ni(II) cyclam and other similar Ni(II) tetraazamacrocyclic complexes [4] or Ni(II) tetramethyldibezotetraaza (14)anulene [5], and the resulting films showed high catalytic activity toward electrooxidation of alcohols and/or other À OH and À NH 2 containing compounds, respectively.…”

Section: Introductionmentioning

confidence: 99%

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Electrocatalytic Properties of Electropolymerized Ni(II)curcumin Complex

et al. 2003

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The voltammetric behavior in alkaline solution of a nickel-based chemically modified electrode (poly-Ni(II)curcumin) prepared by oxidative electropolymerization of nickel-curcumin complex for electrooxidation of aliphatic alcohols was investigated by cyclic voltammetry and rotating disk technique (curcumin 1,7-bis[4-hydroxy-3-methoxyphenyl]-1,6-heptadiene-3,5-dione). The dependence of the oxidation current on the alcohol concentration and on the number of redox centers Ni(II)/Ni(III) is discussed. From the fact that the oxidation current increases with the increase of film thickness it is evident that the electrocatalytic reaction occurs inside the polymer film. The system examined is a typical example of a redox polymer with 3D properties. It is also concluded that the reaction mechanism of alcohol oxidation is the case, according to the concept of Andrieux and Saveant, where the cross-exchange reaction is the limiting step. The mechanism of modifying the film formation has also been discussed.

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Section: Oxidative Electropolymerization Of Curcumin and Ni(ii)curcummentioning

confidence: 68%

Section: Introductionmentioning

confidence: 99%

Electrocatalytic Properties of Electropolymerized Ni(II)curcumin Complex

et al. 2003

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“…The electrooxidation of vanillin and eugenol on platinum in basic media into the corresponding natural occurring biphenols has been reported. [13,14] Owing to the high costs of platinum, carbon electrode materials are definitely more attractive for technical applications. Unfortunately, the conversion of simple methylated phenols like para-cresol or 2,4-dimethylphenol (1) lead to the formation of the corresponding Pummerers ketone derivative 3 and not to the biphenol.…”

Section: Introductionmentioning

confidence: 99%

Highly Selective Electrosynthesis of Biphenols on Graphite Electrodes in Fluorinated Media

Kirste

Hayashi

Schnakenburg

et al. 2011

Chemistry A European J

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The direct and selective phenol coupling reaction that provides biphenols still represents a challenge in organic synthesis. The recently developed electrosynthesis on boron-doped diamond anodes with fluorinated additives was developed further to allow the application to less-expensive electrodes and fluorinated media. This advanced protocol allows the highly selective anodic phenol coupling reaction on graphite with a broad scope.

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“…Vermillion and Pearl [26] have proposed that the first stage of the anodic oxidation of phenol on PbO 2 occurs according to two different mechanisms depending on the pH. They have suggested that, at pH values below the pK a (9.89), the bielectronic discharge of phenol molecules leads to the formation of phenoxonium cations:…”

Section: Introductionmentioning

confidence: 99%

Electrochemical polymerisation of phenol in aqueous solution on a Ta/PbO2 anode

2008

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This paper deals with the treatment of aqueous phenol solutions using an electrochemical technique. Phenol can be partly eliminated from aqueous solution by electrochemically initiated polymerisation. Galvanostatic electrolyses of phenol solutions at concentration up to 0.1 mol dm -3 were carried out on a Ta/PbO 2 anode. The polymers formed are insoluble in acidic medium but soluble in alkaline. These polymers were filtered and then dissolved in aqueous solution of sodium hydroxide (1 mol dm -3 ). The polymers formed were quantified by total organic carbon (TOC) measurement. It was found that the conversion of phenol into polymers increases as a function of initial concentration, anodic current density, temperature, and solution pH. The percentage of phenol polymerised can reach 15%.

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Anodic Reactions of Simple Phenolic Compounds

Cited by 102 publications

References 22 publications

Electrocatalytic Properties of Electropolymerized Ni(II)curcumin Complex

Electrocatalytic Properties of Electropolymerized Ni(II)curcumin Complex

Highly Selective Electrosynthesis of Biphenols on Graphite Electrodes in Fluorinated Media

Electrochemical polymerisation of phenol in aqueous solution on a Ta/PbO2 anode

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