Electrochemical evidence of sulfinic acid derivative as an intermediate in the reduction of aromatic sulfonyl chloride in an aprotic medium

Angelo, Antonio; Jorge, Salomão Dória; Stradiotto, Nelson Ramos

doi:10.1590/s0100-46702005000300007

Cited by 4 publications

(6 citation statements)

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“…The thiosulfonates are usual products in the reduction of these compounds and have been shown to result from chemical reactions in solution and are not formed at the electrode through direct reduction of the parent molecules. [59][60][61][62] An important result here is that the disulfides result from the reduction of the thiosulfonates as we have demonstrated through electrolysis of the phenylthiophenylsulfonate 2c (see ESIw). The reduction peak of this compound is located at a potential very close to that of the parent sulfonyl chloride (see ESIw) and hence is reduced during the electrolysis, which is set at the reduction potential of the latter compound.…”

Section: Electrolysesmentioning

confidence: 99%

“…A number of electrochemical investigations have been reported in different media but a clear picture of the details of the reduction mechanism is still lacking. [59][60][61][62] The studies have shown different results in terms of involved mechanisms, number of consumed electrons, and yielded different products. [59][60][61][62] A more rigorous study would certainly help to understand the reduction mechanism and rationalize the observed differences.…”

Section: Introductionmentioning

confidence: 99%

“…[59][60][61][62] The studies have shown different results in terms of involved mechanisms, number of consumed electrons, and yielded different products. [59][60][61][62] A more rigorous study would certainly help to understand the reduction mechanism and rationalize the observed differences. Here we are particularly interested in investigating the dynamics of the reduction of a series of arene sulfonyl chlorides through a careful analysis of the involved mechanisms as well as a rigorous determination of the factors controlling its kinetics and thermodynamics.…”

Section: Introductionmentioning

confidence: 99%

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Application of the dissociative electron transfer theory and its extension to the case of in-cage interactions in the electrochemical reduction of arenesulfonyl chlorides

Houmam

Hamed

2012

Phys. Chem. Chem. Phys.

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Important aspects of the electrochemical reduction of a series of substituted arene sulfonyl chlorides are investigated. An interesting autocatalytic mechanism is encountered where the starting material is reduced both at the electrode and through homogeneous electron transfer from the resulting sulfinate anion. This is due to the homogenous electron transfer from the two-electron reduction produced anion (arene sulfinate) to the parent arene sulfonyl chloride. As a result, the reduction process and hence the generated final products depend on both the concentration of the substrate and the scan rate. A change is also observed in the reductive cleavage mechanism as a function of the substituent on the phenyl ring of the arene sulfonyl chloride. With 4-cyano and 4-nitrophenyl sulfonyl chlorides a "sticky" dissociative ET mechanism takes place where a concerted ET mechanism leads to the formation of a radical/anion cluster before decomposition. With other substituents (MeO, Me, H, Cl, and F) a "classical" dissociative ET is followed, where the ET and bond cleavage are simultaneous. The dissociative electron transfer theory, as well as its extension to the case of strong in-cage interactions between the produced fragments, along with gas phase chemical quantum calculations results helped us to rationalize both the observed change in the ET mechanism and the occurrence of the "sticky" dissociative ET mechanism. The radical/anion pair interactions have been determined both in solution as well as in the gas phase. The study also shows that despite the low magnitude of in-cage interactions in acetonitrile compared to the gas phase their existence strongly affects the dynamics of the involved reactions. It also shows that, as expected, these interactions are reinforced by the existence of strong electron-withdrawing substituents. The occurrence of an autocatalytic process and the existence of the radical/anion interaction may explain the differences previously observed in the reduction of these compounds in different media.

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Section: Electrolysesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Application of the dissociative electron transfer theory and its extension to the case of in-cage interactions in the electrochemical reduction of arenesulfonyl chlorides

Houmam

Hamed

2012

Phys. Chem. Chem. Phys.

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Section: Electrochemical Characterization Of Dansyl Derivatives and Ementioning

confidence: 99%

“…−1.5 V, giving carboxylate anions that can rearrange and form a series of different products 42 and (iii) at more cathodic potential (above −2.0 V), the sulfonyl chloride S−Cl or the sulfonamide S−N bond cleavage. 43,44 In the anodic region, the cyclic voltammograms revealed an irreversible peak at 0.706 V for the dansyl Silva (Figure 3). These peaks were attributed to the tertiary amine oxidation of both derivatives, suggesting a fast following coupled chemical reaction and/or an irreversible charge transfer reaction, but with no significant changes observed at the electrode surface.…”

Section: Electrochemical Characterization Of Dansyl Derivatives and Ementioning

confidence: 99%

Dansyl-based fluorescent films prepared by chemical and electrochemical methods: cyclic voltammetry, afm and spectrofluorimetry characterization

Júlia¹,

Silva²,

Silva³

et al. 2011

J. Braz. Chem. Soc.

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Filmes fluorescentes baseados em derivados de dansila foram preparados a partir de duas metodologias diferentes. Em uma delas, a superfície de um eletrodo de óxido de índio dopado com estanho (ITO) foi coberta com um filme de quitosana e o polímero foi posteriormente derivatizado com cloreto de dansila, enquanto que na outra metodologia, um filme de dansilglicina foi depositado eletroquimicamente sobre ITO. A técnica de microscopia de força atômica (AFM) foi usada para mapear a superfície dos filmes. A comparação das propriedades eletroquímicas, fotoquímicas e morfológicas destes filmes indicou que o filme de dansilglicina depositado eletroquimicamente sobre ITO apresentou resposta eletroquímica, nível de fluorescência mais intenso, maior rugosidade superficial e maior área superficial relativa em comparação com o seu homólogo quitosana-cloreto de dansila. Esse comportamento pode ser atribuído ao maior número de sítios ativos presentes na estrutura bem organizada do filme eletrodepositado em comparação com os filmes produzidos quimicamente.Dansyl-based fluorescent films were prepared by two different methods. In one of them, the surface of an indium tin oxide (ITO) electrode was coated with a film of chitosan and the polymer subsequently derivatized with dansyl chloride, whilst in the second method a film of dansylglycine was electrochemically deposited on the ITO surface. Atomic force microscopy (AFM) was employed to map the surfaces of the films. Comparison of the morphological, photochemical and electrochemical properties of these films indicated that the dansylglycine film electrodeposited on ITO exhibited electrochemical response, emitted a higher level of fluorescence, presented greater surface roughness and larger relative surface area in comparison with its dansyl chloridechitosan counterpart. This behavior can be attributed to the higher number of active sites present in the well-organized and rough structure of the electrodeposited film in comparison with the chemically produced films.Keywords: fluorescent films, chitosan, dansyl derivatives, atomic force microscopy IntroductionSurface immobilization of organic molecules on various solid supports to prepare thin films with desired properties has gained considerable research interest in the past few decades.1 This is because, on one hand, it can offer model systems to study surface-dependent phenomena like catalysis, 2 adhesion, 3 or wetting, 4 and, on the other hand, it plays a great role in the design and preparation of functionalized surface materials. 5,6 The photochemical, photophysical and electrochemical properties of these functional films offer a wide range of potential applications in nonlinear optics, 7 displays, 8,9 biomedicine and chemical sensors. 10Fluorescent films are of particular interest by virtue of their specific advantages regarding sensitivity and Silva et al. 1809 Vol. 22, No. 9, 2011 selectivity, once such films are reusable and are readily fabricated into devices. 6 Some special fluorophores, which may have two parts in the...

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Photodegradation of sulfathiazole under simulated sunlight: Kinetics, photo-induced structural rearrangement, and antimicrobial activities of photoproducts

2017

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Electrochemical evidence of sulfinic acid derivative as an intermediate in the reduction of aromatic sulfonyl chloride in an aprotic medium

Cited by 4 publications

References 3 publications

Application of the dissociative electron transfer theory and its extension to the case of in-cage interactions in the electrochemical reduction of arenesulfonyl chlorides

Application of the dissociative electron transfer theory and its extension to the case of in-cage interactions in the electrochemical reduction of arenesulfonyl chlorides

Dansyl-based fluorescent films prepared by chemical and electrochemical methods: cyclic voltammetry, afm and spectrofluorimetry characterization

Photodegradation of sulfathiazole under simulated sunlight: Kinetics, photo-induced structural rearrangement, and antimicrobial activities of photoproducts

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