Silver(III) Periodate Complex—An Oxidant for Free Radical Induced Uncatalyzed and Ruthenium(III) Catalyzed Oxidation of Barbituric Acid

The oxidation of a heterocyclic compound—barbituric acid (BBA) by diperiodatoargentate(III) (DPA) was carried out in the absence and presence of ruthenium(III) catalyst in alkaline medium with a constant ionic strength of 0.20 mol dm –3 at 298 K. The reaction was monitored spectrophotometrically. Th...

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Veröffentlicht in:Russian Journal of Physical Chemistry A 2020-10, Vol.94 (10), p.2010-2023
Hauptverfasser: Bagoji, Atmanand M., Konnur, Santosh B., Gokavi, Naveen M., Buddanavar, Arunkumar T., Nandibewoor, Sharanappa T.
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container_end_page 2023
container_issue 10
container_start_page 2010
container_title Russian Journal of Physical Chemistry A
container_volume 94
creator Bagoji, Atmanand M.
Konnur, Santosh B.
Gokavi, Naveen M.
Buddanavar, Arunkumar T.
Nandibewoor, Sharanappa T.
description The oxidation of a heterocyclic compound—barbituric acid (BBA) by diperiodatoargentate(III) (DPA) was carried out in the absence and presence of ruthenium(III) catalyst in alkaline medium with a constant ionic strength of 0.20 mol dm –3 at 298 K. The reaction was monitored spectrophotometrically. The reaction was of first order with respect to [DPA] and was less than unity order with respect to [BBA] in both catalyzed and uncatalyzed cases. Positive and negative fractional order in [OH – ] for uncatalyzed and Ru(III) catalyzed reaction respectively was observed, whereas perioadate has retarding effect in both the cases. A unity order with respect to [Ru(III)] was observed. The uncatalyzed reaction in alkaline medium has been shown to proceed via a DPA–BBA complex, which decomposes in a rate determining step to give the free radicals, which is followed by other fast steps to give the products. Whereas in catalyzed reaction, it has been shown to proceed via a Ru(III)–BBA complex, and similar other steps as in uncatalyzed reaction to give the products. The reaction constants involved in the various steps involved in the mechanisms were calculated for both the reactions. The catalytic constant ( k C ) was also calculated for catalyzed reaction at four temperatures. The activation parameters with respect to slow step of the mechanism and also the thermodynamic data for all the equilibrium steps were determined and discussed.
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The reaction was monitored spectrophotometrically. The reaction was of first order with respect to [DPA] and was less than unity order with respect to [BBA] in both catalyzed and uncatalyzed cases. Positive and negative fractional order in [OH – ] for uncatalyzed and Ru(III) catalyzed reaction respectively was observed, whereas perioadate has retarding effect in both the cases. A unity order with respect to [Ru(III)] was observed. The uncatalyzed reaction in alkaline medium has been shown to proceed via a DPA–BBA complex, which decomposes in a rate determining step to give the free radicals, which is followed by other fast steps to give the products. Whereas in catalyzed reaction, it has been shown to proceed via a Ru(III)–BBA complex, and similar other steps as in uncatalyzed reaction to give the products. The reaction constants involved in the various steps involved in the mechanisms were calculated for both the reactions. 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J. Phys. Chem</addtitle><description>The oxidation of a heterocyclic compound—barbituric acid (BBA) by diperiodatoargentate(III) (DPA) was carried out in the absence and presence of ruthenium(III) catalyst in alkaline medium with a constant ionic strength of 0.20 mol dm –3 at 298 K. The reaction was monitored spectrophotometrically. The reaction was of first order with respect to [DPA] and was less than unity order with respect to [BBA] in both catalyzed and uncatalyzed cases. Positive and negative fractional order in [OH – ] for uncatalyzed and Ru(III) catalyzed reaction respectively was observed, whereas perioadate has retarding effect in both the cases. A unity order with respect to [Ru(III)] was observed. The uncatalyzed reaction in alkaline medium has been shown to proceed via a DPA–BBA complex, which decomposes in a rate determining step to give the free radicals, which is followed by other fast steps to give the products. 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J. Phys. Chem</stitle><date>2020-10-01</date><risdate>2020</risdate><volume>94</volume><issue>10</issue><spage>2010</spage><epage>2023</epage><pages>2010-2023</pages><issn>0036-0244</issn><eissn>1531-863X</eissn><abstract>The oxidation of a heterocyclic compound—barbituric acid (BBA) by diperiodatoargentate(III) (DPA) was carried out in the absence and presence of ruthenium(III) catalyst in alkaline medium with a constant ionic strength of 0.20 mol dm –3 at 298 K. The reaction was monitored spectrophotometrically. The reaction was of first order with respect to [DPA] and was less than unity order with respect to [BBA] in both catalyzed and uncatalyzed cases. Positive and negative fractional order in [OH – ] for uncatalyzed and Ru(III) catalyzed reaction respectively was observed, whereas perioadate has retarding effect in both the cases. A unity order with respect to [Ru(III)] was observed. The uncatalyzed reaction in alkaline medium has been shown to proceed via a DPA–BBA complex, which decomposes in a rate determining step to give the free radicals, which is followed by other fast steps to give the products. Whereas in catalyzed reaction, it has been shown to proceed via a Ru(III)–BBA complex, and similar other steps as in uncatalyzed reaction to give the products. The reaction constants involved in the various steps involved in the mechanisms were calculated for both the reactions. The catalytic constant ( k C ) was also calculated for catalyzed reaction at four temperatures. The activation parameters with respect to slow step of the mechanism and also the thermodynamic data for all the equilibrium steps were determined and discussed.</abstract><cop>Moscow</cop><pub>Pleiades Publishing</pub><doi>10.1134/S0036024420100052</doi><tpages>14</tpages></addata></record>
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subjects Chemical Kinetics and Catalysis
Chemical reactions
Chemistry
Chemistry and Materials Science
Free radicals
Heterocyclic compounds
Mathematical analysis
Oxidation
Oxidizing agents
Physical Chemistry
Ruthenium
Spectrophotometry
Thermodynamic equilibrium
Unity
title Silver(III) Periodate Complex—An Oxidant for Free Radical Induced Uncatalyzed and Ruthenium(III) Catalyzed Oxidation of Barbituric Acid
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