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1.
The kinetics of oxidation of a non-steroidal analgesic drug, aspirin (ASP) by diperiodatocuprate(III)(DPC) in the presence and absence of osmium(VIII) have been investigated at 298 K in alkaline medium at a constant ionic strength of 0.10 mol dm−3 spectrophotometrically. The reaction showed a first-order in [DPC] and less than unit order in [ASP] and [alkali] for both the osmium(VIII) catalysed and uncatalysed reactions. The order with respect to Os(VIII) concentration was unity. The effects of added products, ionic strength, periodate and dielectric constant have been studied. The stoichiometry of the reaction was found to be 1:4 (ASP:DPC) for both the cases. The main oxidation product of aspirin was identified by spot test, IR, NMR and GC–MS. The reaction constants involved in the different steps of the mechanisms were calculated for both reactions. Activation parameters with respect to slow step of the mechanisms were computed and discussed for both the cases. The thermodynamic quantities were also determined for both reactions. The catalytic constant (KC) was also calculated for catalysed reaction at different temperatures and the corresponding activation parameters were determined. 相似文献
2.
Ornidazole is an antiparasitic drug having a wide spectrum of activity. Literature survey has revealed that no attention has been paid towards the oxidation of ornidazole with any oxidant from the kinetic and mechanistic view point. Also no one has examined the role of platinum group metal ions as catalysts in the oxidation of this drug. Such studies are of much use in understanding the mechanistic profile of ornidazole in redox reactions and provide an insight into the interaction of metal ions with the substrate in biological systems. For these reasons, the Ru(III)- and Os(VIII)-catalyzed kinetics of oxidation of ornidazole with chloramine-T have been studied in HCl and NaOH media, respectively at 313 K. The oxidation products and kinetic patterns were found to be different in acid and alkaline media. Under comparable experimental conditions, in Ru(III)-catalyzed oxidation the rate law is −d[CAT]/dt = k [CAT]o[ornidazole]ox[H+]−y[Ru(III)]z and it takes the form −d[CAT]/dt = k [CAT]o[ornidazole]ox[OH−]y[Os(VIII)][ArSO2NH2]−z for Os(VIII)-catalyzed reaction, where x, y and z are less than unity. In acid medium, 1-chloro-3-(2-methyl-5-nitroimidazole-1-yl)propan-2-one and in alkaline medium, 1-hydroxy-3-(2-methyl-5-nitroimidazole-1-yl)propan-2-one were characterized as the oxidation products of ornidazole by GC–MS analysis. The reactions were studied at different temperatures and the overall activation parameters have been computed. The solvent isotope effect was studied using D2O. Under identical set of experimental conditions, the kinetics of Ru(III) catalyzed oxidation of ornidazole by CAT in acid medium have been compared with uncatalyzed reactions. The relative rates revealed that the catalyzed reactions are about 5-fold faster whereas in Os(VIII) catalyzed reactions, it is around 9 times. The catalytic constant (KC) has been calculated for both the catalysts at different temperatures and activation parameters with respect to each catalyst have been evaluated. The observed experimental results have been explained by plausible mechanisms. Related rate laws have been worked out. 相似文献
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4.
M. R. Kembhavi A. L. Harihar S. T. Nandibewoor 《Reaction Kinetics and Catalysis Letters》1999,67(1):67-73
Osmium(VIII) catalyzed oxidation of tellurium(IV) by periodate in alkaline medium is found to occurvia oxidant-catalyst complex formation in a slow step followed by the interaction of substrate and complex in the fast step to
yield the products with regeneration of catalyst. One of the products, Te(VI), considerably retards the rate of reaction.
The reaction shows zero order in [tellurium(IV)], first order each in [IO4] and [Os(VIII)] and an inverse fractional order dependence on [OH]. A plausible mechanism is proposed and the reaction constants
involved in the mechanism are derived. 相似文献
5.
Os(VIII) catalysis of oxidation of As(III)/Sb(III) by 1-equivalent oxidants like Ce(IV) and Mn(III) in acid medium is studied.
A multistep mechanism involving the intervention of the intermediate oxidation states of osmium is found to apply. Specific
rates of different steps in the mechanism are estimated and used to calculate reaction rates which are in reasonable agreement
with those of experiment. 相似文献
6.
Yasutaka Yatsumonji 《Tetrahedron》2006,62(42):9981-9987
(E)-Alkenyl halides were transformed into (E)-alkenyl sulfides by the nickel(0) triethyl phosphite complex-catalyzed reaction with thiols, whereas (Z)-alkenyl halides gave alkynes under the same reaction conditions. Aryl halides were also transformed into aryl sulfides using the same reagent system. 相似文献
7.
Santosh K. Upadhyay Mahesh C. Agrawal 《Monatshefte für Chemie / Chemical Monthly》1979,110(2):413-418
Osmium(VIII) catalysed oxidation of lysine by ferricyanide in excess ferrocyanide shows a complex kinetics. The order in lysine falls, from 1 to 0 while that in ferricyanide increases from 0 to 2 with large increase in lysine concentration. The rates were directly proportional to [Os(VIII)] and {Const.+[Fe(CN)
6
4
]}. A suitable mechanism is proposed and discussed.
Oxidation von lysin mittels ferricyanid in der gegenwart von osmium(VIII)
Zusammenfassung Die von Os(VIII) katalysierte Oxidation von Lysin mit Ferricyanid in überschüssigem Ferrocyanid zeigt eine komplexe Kinetik. Bei starker Steigerung der Lysinkonzentration fällt die Ordnung bezüglich Lysin von 1 auf 0, während bezüglich Ferricyanid eine Erhöhung, von 0 auf 2 festzustellen ist. Die Geschwindigkeitskonstanten waren direkt proportional zu [Os(VII)] und {Const.+[Fe(CN) 6 4 ]}. Es wird ein möglicher Mechanismus vorgeschlagen und diskutiert.相似文献
8.
N. N. Aleinikov S. A. Kashtanov I. A. Pomytkin A. M. Sipyagin 《Russian Chemical Bulletin》1995,44(1):180-181
Bis(tetramethylammonium), bis(tetrabutylammonium), and bis(tetraphenylarsonium) dihydrohexaoxoxenonates(VIII) were obtained in an aqueous solution and in acetonitriie. The rate constants of their decomposition were determined.Translated fromIzvestiya Akademii Nauk. Seriya Khimicheskaya, No. 1, pp. 184–185, January, 1995.This work was carried out with financial support from the International Scientific Foundation (Grant REI 000). 相似文献
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Rahamatalla M. Mulla Gurubasavaraj C. Hiremath Sharanappa T. Nandibewoor 《Journal of Chemical Sciences》2005,117(1):33-42
Kinetics of ruthenium (III) catalyzed oxidation of atenolol by permanganate in alkaline medium at constant ionic strength
of 0.30 mol dm3 has been studied spectrophotometrically using a rapid kinetic accessory. Reaction between permanganate and atenolol in alkaline
medium exhibits 1 : 8 stoichiometry (atenolol : KMnO4). The reaction shows first-order dependence on [permanganate] and [ruthenium (III)] and apparently less than unit order on
both atenolol and alkali concentrations. Reaction rate decreases with increase in ionic strength and increases with decreasing
dielectric constant of the medium. Initial addition of reaction products does not affect the rate significantly. A mechanism
involving the formation of a complex between catalyst and substrate has been proposed. The active species of ruthenium (III)
is understood as [Ru(H2O)5OH]2+. The reaction constants involved in the different steps of mechanism are calculated. Activation parameters with respect to
the slow step of the mechanism are computed and discussed and thermodynamic quantities are also calculated. 相似文献
11.
Fe(NO3)3·9H3O/Fe(HSO4)3 was used as an efficient reagent system for the oxidation of alcohols to their corresponding carbonylcompounds. All reactions were performed in the absence of solvent in good to high yields. Under the same reaction conditions,thiols and sulfides were also converted to their corresponding disulfides and sulfoxides, respectively. 相似文献
12.
Kikkeri N. Mohana Ningegowda Prasad Kuriya M. L. Rai 《Monatshefte für Chemie / Chemical Monthly》2008,139(10):1203-1210
The oxidative cleavage of vitamin B1 (thiamine hydrochloride, THM) with sodium N-chlorobenzenesulfonamide (chloramine-B, CAB) has been kinetically investigated in HCl medium in presence of ruthenium(III) catalyst at 308 K. The oxidation reaction
follows the rate law, −d[CAB]/dt = k [CAB] [Ru(III)] [H+] [THM]a [Cl−]b, where a and b are less than unity. Variation of ionic strength of the medium and addition of the reaction product, benzenesulfonamide
(BSA) had no significant effect on the reaction rate. The change in relative permittivity of the medium affected by changing the
solvent composition with acetonitrile has been studied. The stoichiometry of the reaction was found to be 1:1, and N-[(4-amino-2-methylpyrimidine-5-yl)methyl]benzensulfonamide and 2-(4-methylthiazol-5-yl)ethanol were identified as the oxidation
products of vitamin B1. The reaction constants involved in the mechanism were computed. The reaction was studied at different temperatures and the
overall activation parameters have been evaluated. C6H5SO2NHCl has been postulated as the reactive oxidizing species. The observed results have been explained by plausible mechanisms
and the relative rate laws have been deduced.
Correspondence: Kikkeri Narasimhasetty Mohana, Department of Studies in Chemistry, University of Mysore, Manasagangotri, Mysore
570 006, India. 相似文献
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M. M. Al-Subu W. J. Jondi A. A. Amer M. Hannoun M. J. Musmar 《Chemistry of Heterocyclic Compounds》2003,39(4):478-484
Reactions of morpholine, piperidine, and piperazine with Os(VIII)-catalyzed hexacyanoferrate(III) in alkaline media to produce the corresponding lactam have been studied at constant temperature and ionic strength. The reactions followed first-order kinetics with respect to [amine] and [Os(VIII)] but were independent of [Fe(CN)6
3-] and [OH-]. The effects of introduced electrolytes, potassium hexacyanoferrate(II), relative permitivity, and temperature have also been studied. A mechanism accounting for these results has been proposed. 相似文献
15.
The selective oxidation of thioethers to sulphoxides and of PPh3 to PPh3O can be effected by NMO in DMF as solvent in the presence of Ru(III) chloride as catalyst. Kinetic investigations indicate
that the orders with respect to the catalyst and oxidant are one each. The order with respect to the substrate is variable
being fractional order at low concentrations and zero at high concentrations. Spectrophotometric studies reveal the formation
of a 1:1 complex between the substrate and the catalyst. A mechanism consistent with the above observations has been proposed
and verified. 相似文献
16.
P. Karthikeyan Rajenahally V. Jagadeesh Y. Sree Sandhya Puttaswamy P. Nithya S. Senthil Kumar P.R. Bhagat 《应用有机金属化学》2011,25(1):34-46
Ruthenium, osmium and ruthenium + osmium catalyzed synthetic methodology was developed for the synthesis of anthranilic acids from indoles in good to excellent yields using bromamine‐B in alkaline acetonitrile–water (1:1) at 313 K. Detailed catalysis studies of ruthenium, osmium and the mixture of both were carried out for the synthetic reactions. The positive synergistic catalytic activity of Ru(III) + Os(VIII) was observed to a large extent with the activity greater than the sum of their separate catalytic activities. Detailed kinetic and mechanistic investigations for each catalyzed reactions were carried out. The kinetic pattern and mechanistic picture of each catalyzed reaction were found to be different for each catalyst and to obey the underlying rate laws: where, x, y < 1. The reactions were studied at different temperatures and the activation parameters were evaluated for each catalyzed reaction. Under the identical set of experimental conditions, the kinetics of all the three catalyzed reactions were compared with uncatalyzed reactions, revealing that the catalyzed reactions were 6‐ to 42‐fold faster. The catalytic efficiency of aforementioned catalysts followed the order: Ru(III) + Os(VIII) > Os(VIII) > Ru(III). This trend may be attributed to the different d‐electronic configuration of the catalysts. The proposed mechanisms and the rigorous kinetic models derived give results that fit well with the experimental data in each catalyzed reaction. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
17.
Mohammad Ali Zolfigol Kamal Amani Maryam Hajjami Arash Ghorbani-Choghamarani 《Monatshefte für Chemie / Chemical Monthly》2008,139(8):895-899
A wide range of aliphatic or aromatic sulfides are selectively oxidized to the corresponding sulfoxides using ammonium cerium
(IV) nitrate (CAN) and a catalytic amount of KBr or NaBr in the presence of wet SiO2 in CH2Cl2 under heterogeneous conditions in moderate to high yields.
Correspondence: Mohammad Ali Zolfigol, Faculty of Chemistry, Bu-Ali Sina University, P.O. Box 6517838683, Hamadan, Iran; Kamal
Amani, Department of Chemistry, Faculty of Science, University of Kurdistan, P.O. Box 6617715175, Sanandaj, Iran. 相似文献
18.
G. A. Hiremath P. L. Timmanagoudar S. T. Nandibewoor 《Reaction Kinetics and Catalysis Letters》1998,63(2):403-408
Ruthenium(III) catalyzed oxidation of hexacyanoferrate(II) by periodate in alkaline medium is assumed to occurvia substrate-catalyst complex formation followed by the interaction of oxidant and complex in the rate-limiting stage and yield
the products with regeneration of catalyst in the subsequent fast step. The reaction exhibits fractional order in hexacyanoferrate(II)
and first-order unity each in oxidant and catalyst. The reaction constants involved in the mechanism are derived. 相似文献
19.
Kinetics of oxidation of six aliphatic aldehydes by Os(VIII) in alkaline solutions have been studied. The reaction is of first order with respect to each of the aldehyde and Os(VIII). The pseudo-first order rate constants decreased with an increase in the concentration of hydroxyl ions. The oxidation of deuterioacetaldehyde (MeCDO) exhibited a substantial primary kinetic isotope effect. Separate rate constants for the oxidation of hydrate and free aldehyde forms have been evaluated. The aldehyde hydrate is postulated as the active reductant. Ionic strength has no noticable effect on the rate. The rate-determining step is, therefore, postulated to be a bimolecular reaction between the aldehyde hydrate and [OsO4(OH)2]?2. The value of the limiting rate constant exhibited an excellent correlation with Taft σ* values; reaction constant being negative. A mechanism involving transfer of a hydride ion from the aldehyde hydrate to Os(VIII) has been proposed. 相似文献