Kinetics and mechanism of the oxidation of some organic sulfides by morpholinium chlorochromate

The oxidation of six aliphatic aldehydes by tetraethylammonium chlorochromate (TEACC) in dimethyl sulfoxide (DMSO) leads to the formation of the corresponding carboxylic acids. The reaction is first order each in TEACC and the aldehyde. The reaction is catalysed by hydrogen ions. The hydrogen -ion dependence has the form: k obs ¼ a þ b½H þ . The oxidation of deuteriated acetaldehyde, MeCDO, exhibited a substantial primary kinetic isotope effect (k H yk D ¼ 5:83 at 298 K). The oxidation of acetaldehyde has been studied in 19 different organic solvents. The solvent effect has been analysed using Taft's and Swain's multiparametric equations. The rate constants correlate well with Taft's s* values; reaction constants being negative. A mechanism involving transfer of hydride ion has been suggested.

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“…Formation of a protonated Cr(VI) species has earlier been postulated in the reactions of structurally similar PBC [11] and MCC [12].…”

Section: Reactive Oxidizing Speciesmentioning

confidence: 99%

Oxidation of Aliphatic Aldehydes by Tetraethylammonium Chlorochromate: A Kinetic and Mechanistic Study

Swami

Malani

Agarwal³

et al. 2010

Progress in Reaction Kinetics and Mechanism

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“…Dithiodiglycolic acid is obtained from Sigma Aldrich. Dithiodimalic and dithiodilactic acids were prepared by the oxidation of the corresponding thiols by ferric alum (Malini et al, 2008). Acetic acid purified by a standard method and the fraction distilling at 118°C was collected.…”

Section: Methodsmentioning

confidence: 99%

“…For this, a number of different chromium (VI) derivatives like tetraethylammonium chlorochromate (Swami et al, 2010), tetrabutylammonium bromochromate (Ghammamy et al, 2007), tetraheptylammonium bromochromate (Ghammamy et al, 2009), tetrahexylammonium fluorochromate (Koohestani et al, 2008), tetramethylammonium fluorochromate (Sadeghy and Ghammami, 2005), tetraethylammonium chlorochromate (Mansoor and Shafi, 2011a,b), benzimidazolium fluorochromate (Mansoor, 2010;Mansoor et al, 2011), tributylammonium chlorochromate (Mansoor and Shafi, 2010a,b), tetraethyl ammonium bromochromate (Mansoor and Shafi, 2011a,b), triethylammonium chlorochromate (Mansoor and Shafi, 2010a,b), imidazolium dichromate (Mansoor and Shafi, 2009), benzimidazolium dichromate (Kumar et al, 2011) and imidazolium fluorochromate (Mansoor and Shafi, 2012) have been developed to improve the selectivity of oxidation of organic compounds. The kinetics and mechanism of oxidation of thio acids by various oxidants have been reported (Asopa et al, 1990;Rathore et al, 1994;Khurana et al, 1998;Gangwani et al, 2000;Bhatt et al, 2001;Malini et al, 2008). However, the kinetics of oxidation of thio acids by TriPAFC, a Cr(VI) reagent has not yet been studied.…”

Section: Introductionmentioning

confidence: 93%

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Kinetics and thermodynamics of oxidation of some thio acids by tripropylammonium fluorochromate in N , N -dimethyl formamide and acetic acid mixture

Mansoor¹,

Malik²,

Aswin³

et al. 2016

Journal of Saudi Chemical Society

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Kinetics and mechanism of oxidation of thioglycolic acid (TGA). Thiolactic acid (TLA) and thiomalic acid (TMA) by tripropylammonium fluorochromate (TriPAFC) have been studied in N, N-dimethyl formamide (DMF). The reaction is first order with respect to TriPAFC and thioacids (TA). p-Toluene sulfonic acid (TsOH) is used as a source of hydrogen ions. The reaction is acid catalyzed. The hydrogen ion dependence has the form: k obs = a + b [H + ]. The reaction has been studied in different percentage of DMF-acetic acid mixture. The effect of dielectric constant of the medium indicates the reaction to be of ion-dipole type. Various thermodynamic parameters for the oxidation have been reported and discussed along with the validity of isokinetic relationship. A suitable mechanism has been proposed.

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“…The synthesis of sulphoxides were reported for first time by Marcker in 1865 and since then a number of methods were developed for conversion of sulphides to sulphoxides. Oxidation of organic sulphides by several oxidants such as N-halo compounds [2][3][4] , peroxo compounds 5 and chromium compounds 6 have been reported.…”

Section: Introductionmentioning

confidence: 99%

Kinetics and Mechanism of Oxidation of Methyl Phenyl Sulphide by Imidazolium Fluorochromate

Alhaji¹,

Shajahan²,

Ayyadurai³

2013

Chem Sci Trans

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The kinetics of oxidation of methyl phenyl sulphide (MPS) by imidazolium fluorochromate (IFC) in acetonitrile-water (1:1) mixture at 303 K in presence of perchloric acid was followed spectrophotometrically at 360 nm. The reaction was carried out under pseudo first order conditions ([MPS] >> [IFC]). The reaction was first order each in MPS and IFC and fractional order in H +. Also it has been found that the reaction was not affected by ionic strength of medium changed by altering the concentration of the sodium perchlorate. However increase in the acetonitrile content of the medium increases the rate of the reaction. These observations were well analyzed in favour of a S N 2 type of mechanism.

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Kinetics and mechanism of the oxidation of some organic sulfides by morpholinium chlorochromate

Cited by 12 publications

References 39 publications

Oxidation of Aliphatic Aldehydes by Tetraethylammonium Chlorochromate: A Kinetic and Mechanistic Study

Oxidation of Aliphatic Aldehydes by Tetraethylammonium Chlorochromate: A Kinetic and Mechanistic Study

Kinetics and thermodynamics of oxidation of some thio acids by tripropylammonium fluorochromate in N , N -dimethyl formamide and acetic acid mixture

Kinetics and Mechanism of Oxidation of Methyl Phenyl Sulphide by Imidazolium Fluorochromate

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