The interaction of N-bromo-N-sodiobenzenesulphonamide (bromamine B) with p-nitrophenoxide ion

Hardy, F. E.; Johnston, James P.

doi:10.1039/p29730000742

Cited by 139 publications

(112 citation statements)

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“…Further, Hardy and Jhonston [29] have made detailed calculations on the relative concentrations of the reactive species in alkaline bromamine-B solutions and reported that HOBr is also the predominant species in alkaline medium. Since N-haloamines have similar properties and hence one can expect similar equilibrium for alkaline CAT solutions also as shown below, …”

Section: Discussionmentioning

confidence: 99%

PdCl2 Catalyzed and Uncatalyzed N-Oxidation of Naratriptan with Alkaline Chloramine-T: Delineation of Reaction Mechanisms and Kinetic Modelings

2015

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Naratriptan (NTT), chemically known as N-methyl-2-[3-(1-methyl piperidin-4-yl)-1-H-indol-5-yl] ethane sulfonamide, is an indole derivative widely used in the treatment of migraine headaches. The literature survey indicates that there is no report on the oxidation of NTT from the view point of its kinetic and mechanistic aspects. Also none has examined the task of platinum group metal ions as catalysts in the oxidation of this drug. Therefore, in the present research, oxidation of NTT with chloramine-T (CAT) in alkaline medium has been investigated at 298 K through systematic kinetic study in order to explore the mechanistic picture of this redox system in presence and absence of palladium (II) chloride (Pd(II)) catalyst. The reaction shows a first-order dependence of rate each on

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Section: Discussionmentioning

confidence: 99%

PdCl2 Catalyzed and Uncatalyzed N-Oxidation of Naratriptan with Alkaline Chloramine-T: Delineation of Reaction Mechanisms and Kinetic Modelings

2015

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“…Since organic N-haloamines have analogous chemical properties, it is predicted that identical equilibria exist in aqueous acidic and basic solutions of these compounds [25][26]. Chloramine-B and bromamine-B act as oxidizing agents in acidic and alkaline media [27][28][29] with a two electron change per mole giving benzenesulfonamide (BSA) and NaCl or NaBr. The redox potential of CAT-PTS couple is pH dependent [25] and decreases with increase in pH of the medium (E redox 1.138 V, 1.778 V, 0.614 V and 0.5 V at pH 0.65, 7.0, 9.7 and 12, respectively).…”

Section: Reactive Species Of Sodium N-halo-benzenesulfonamidesmentioning

confidence: 99%

Kinetics and Mechanistic Chemistry of Sodium N-Halobenzenesulfonamides Oxidative Decolorization of Azo Dye Acid Orange 10 in Acid Medium: Spectrophotometric Approach

Shubha¹,

Madhusudhan²,

Puttaswamy³

2015

IJIRSET

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ABSTRACT:The kinetics of oxidative decolorization of acid orange 10 (AO10) by chloramine-B and bromamine-B in HClO 4 medium has been investigated spectrophotometrically (λ max = 475 nm) at 298 K. Kinetic runs were performed under pseudo first-order conditions of [oxidant] [HClO 4 ]. Stoichiometry of the reaction was found to be 1:1 and the oxidation products were identified. The reaction was studied at different temperatures and various activation parameters have been computed. Effects of p-toluenesulfonamide, halide ions, ionic strength and dielectric constant of the medium have been investigated. Reaction mixture fails to induce polymerization of acrylonitrile. The rate of oxidation of AO10 is about two-fold faster with BAB as compared to CAB. This may be attributed to the difference in electrophilicities of Cl + and Br + ions and also the van der Waal's radii of chlorine and bromine. Plausible mechanism and related rate law have been deliberated for the observed kinetics.

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“…The redox potential of CAB/BSA is pH dependent and decreases with increases in pH of the medium. Chloramine-B behaves as a strong electrolyte [19] in aqueous solutions and depending upon the pH of the medium it furnishes following types of reactive species in solutions [19][20][21] (Scheme 2).…”

Section: Polymerization Studymentioning

confidence: 99%

Conversion of imidazoles to imidazolones with chloramine-B: kinetic and mechanistic study

Manjunatha

Puttaswamy

2016

Monatsh Chem

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Oxidative conversion of 1H-imidazole (IzlH) and 2-substituted imidazoles viz., 2-ethyl-1H-imidazole (2-EtIzlH), 2-methyl-1H-imidazole (2-MeIzlH), 1H-imidazole-2-ester (2-EsIzlH), and 1H-imidazole-2-carbaldehyde (2-CaIzlH) to the corresponding imidazolones with sodium N-chlorobenzenesulfonamide or chloramine-B (CAB) were established. This reaction was kinetically investigated at 303 K in HClO 4 medium. Under comparable experimental conditions, the oxidation reactions followed identical kinetics for all the five imidazoles with a first-order dependence of rate on [CAB] o and fractional-order dependence each on [imidazole] o and [H ? ]. Effects of added benzenesulfonamide, halide ions, NaClO 4 , and MeOH on the rate of reaction have been studied. Reaction products were identified and characterized by GC-MS and NMR spectral analysis. The rates are measured at different temperatures and the composite activation parameters have been computed from the Arrhenius plots. Isokinetic temperature (b) was found to be 449 K which is higher than the experimental temperature (303 K), indicating that the rate has been under enthalpy control. Relative reactivity of these imidazoles is in the order:Cl have been postulated as the reactive oxidizing species. The reaction mechanism and the derived rate law are in good agreement with the observed experimental results. Spectroscopic studies have been made for an intermediate complex formation between CAB and imidazole. Advantages of the present method include: mild reaction conditions, cost-effectiveness, short reaction time, ease of isolation of products, and the use of eco-friendly reagents. Hence, the methodology developed could be adopted for the facile oxidative conversion of imidazoles to imidazolones and can be scaled up to industrial operation with suitable modification.

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The interaction of N-bromo-N-sodiobenzenesulphonamide (bromamine B) with p-nitrophenoxide ion

Cited by 139 publications

References 0 publications

PdCl2 Catalyzed and Uncatalyzed N-Oxidation of Naratriptan with Alkaline Chloramine-T: Delineation of Reaction Mechanisms and Kinetic Modelings

PdCl2 Catalyzed and Uncatalyzed N-Oxidation of Naratriptan with Alkaline Chloramine-T: Delineation of Reaction Mechanisms and Kinetic Modelings

Kinetics and Mechanistic Chemistry of Sodium N-Halobenzenesulfonamides Oxidative Decolorization of Azo Dye Acid Orange 10 in Acid Medium: Spectrophotometric Approach

Conversion of imidazoles to imidazolones with chloramine-B: kinetic and mechanistic study

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