A. K. Das scite author profile

A. K. Das

5Publications

14Citation Statements Received

28Citation Statements Given

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Utkal University

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Kinetics and mechanism of the reaction of sulphur(IV) with N,N?-ethylene-bis(sali-cylidiniminato)manganese-(III) in aqueous solution

Dash

Das

1999

Int. J. Chem. Kinet.

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The reaction of (diaqua)(N,NЈ-ethylene-bis(salicylidiniminato)manganese(III) with aqueous sulphite buffer results in the formation of the corresponding mono sulphito complex, [Mn(Salen) respectively are: 2.97 Ϯ 0.27, 42.4 Ϯ 0.2, Ϫ55.3 Ϯ 0.6 (i ϭ 1); 11.0 Ϯ 0.8, 33 Ϯ 3, Ϫ75 Ϯ 10 (i ϭ 2); 20.6 Ϯ 1.9, 32.4 Ϯ 0.2, Ϫ72.9 Ϯ 0.6 (i ϭ 3). The trend in reactivity (k 2 Ͼ k 1 ), a small labilizing effect of the coordinated hydroxo group (k 3 /k 2 Ͻ 2), and substantially low values of ⌬S # suggest that the mechanism of aqua ligand substitution of the diaqua, and aqua-hydroxo complexes is most likely associative interchange (I a ). No evidence for the formation of the O-bonded sulphito complex and the ligand isomerization in the sulphito complex, (Mn III -OSO 2 : Mn III -SO 3 ), ensures the selectivity of the Mn III centre toward the S-end of the S IV species. The monosulphito complex further undergoes slow redox reaction in the presence of excess sulphite to produce Mn II , S 2 O 6 2Ϫ and SO 4 2Ϫ . The formation of dithionate is a consequence of the fast dimerization of the SO 3Ϫ . generated in the rate determining step and also SO 4 2Ϫ formation is attributed to the fast scavenging of the SO 3Ϫ . by the Mn III species via a redox path. The internal reduction of the Mn III centre in the monosulphito complex is insignificant. The redox reaction of the monosulphitomanganese(III) complex operates via two major paths, one involving HSO 3Ϫ and the other SO 3 2Ϫ . The electron transfer is believed to be outersphere type. The substantially negative values of activation entropies (⌬S # ϭ Ϫ(1.3 Ϯ 0.2) ϫ 10 2 and Ϫ(1.6 Ϯ 0.2) ϫ 10 2 J K Ϫ1 mol Ϫ1 for the paths involving HSO 3Ϫ and SO 3 2Ϫ respectively) reflect a considerable degree of ordering of the reactants in the act of electron transfer.

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Serum biochemical profiling in different varieties of Japanese quail, Coturnix coturnix japonica (Temminck and Schlegel, 1849)

et al. 2019

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Comparative hemocytobiochemical profile of Rattus rattus Linnaeus, 1758 and Rattus norvegicus Berkenhout, 1769

Das

Mohanty

2018

Comp Clin Pathol

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Nonenzymatic NADH‐Dependent Reduction of Keggin‐Type 12‐Tungstocobaltate(III) in Aqueous Medium

Kumari

Das

Baral

et al. 2010

Journal of Chemistry

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The kinetics of the electron transfer reaction of NADH with 12-tungstocobaltate(III) has been studied over the range 5.07 ≤ 104[NADH] ≤ 15.22 mol dm-3, 7.0 ≤ pH ≤ 8.0 and 20 ≤ t ≤ 35oC in aqueous medium. The electron transfer reaction showed first-order dependence each in [NADH]Tand [12-tungstocobaltate(III)]T. The products of the reaction were found to be NAD+and 12-tungstocobaltate(II). The activation parameters ΔH#(kJ mol-1) and ΔS#(JK-1mol-1) of the electron transfer reactions were found to be 64.4±1.8 and -48.86±6.0. Negative value of ΔS#is an indicative of an ordered transition state for the electron transfer reaction.

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Estimation of Submicrogram Quantities of Ruthenium(III) by Catalysis of the Cerium(IV)-Ethanol Reaction in Aqueous Sulphuric Acid Media

Das¹,

Das²

1996

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A. K. Das

Kinetics and mechanism of the reaction of sulphur(IV) with N,N?-ethylene-bis(sali-cylidiniminato)manganese-(III) in aqueous solution

Serum biochemical profiling in different varieties of Japanese quail, Coturnix coturnix japonica (Temminck and Schlegel, 1849)

Comparative hemocytobiochemical profile of Rattus rattus Linnaeus, 1758 and Rattus norvegicus Berkenhout, 1769

Nonenzymatic NADH‐Dependent Reduction of Keggin‐Type 12‐Tungstocobaltate(III) in Aqueous Medium

Estimation of Submicrogram Quantities of Ruthenium(III) by Catalysis of the Cerium(IV)-Ethanol Reaction in Aqueous Sulphuric Acid Media

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