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Electrochemical and chemical reduction studies of molybdenum(VI)-and molybdenum (V)-ethylenediaminetetraacetic acid complexes (1980)

Chaudhury, Muktimoy ; Banerjee, Pradyot ; Nag, Kamalaksha

Springer

Transition metal chemistry 5 (1980), S. 117-120

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ISSN: 1572-901X

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Summary The electrochemical reduction characteristics of the molyb-denum(VI)-and molybdenum(V)-ethylenediaminetetraacetate complexes, [(MoO3)2Y]4− and [Mo2O4Y]2− respectively have been investigated as a function of pH and free ligand concentration. The nature of chemical reduction of these two complexes with sodium borohydride and sodium dithionite have also been studied in acetate and borate buffers. The electroactive species undergoing electrode reductions have been ascertained by analysing polarograms of the complexes. A mechanism has been proposed to account for the differences observed in the reactivities of these two complexes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01396886

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The kinetics of oxidation of N(2-hydroxyethyl)ethylenediaminetriacetatocobaltate(II) by peroxodisulfate ion in aqueous acidic solutions (1981)

Banerjee, Pradyot ; Pujari, Mahesh P.

Springer

Transition metal chemistry 6 (1981), S. 47-50

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ISSN: 1572-901X

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Summary Peroxodisulfate ion readily oxidises CoII-YOH [YOH =N(2-hydroxyethyl)ethylenediaminetriacetate] with the formation of an intermediate complex. The kinetics of the electron-transfer step follow the rate law: Rate = 2kHKH[H+][S2O8]2-[CoII-YOH]/(1 + KH[H+]) where [S2O8]2− is the total peroxodisulfate concentration, kH is the rate constant for the electron-transfer process, and KH is the pre-equilibrium protonation constant. Activation parameters have been evaluated. The intermediate, which was identified spectrophotometrically, slowly rearranges to the quinquedentate species Co(YOH)(H2O). The rate of this rearangement has also been measured.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01143469

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Kinetics of the peroxodisulphate and hydrogen peroxide oxidations oftrans-1,2-diaminocyclohexane-N,N,N′,N′-tetraacetatocobaltate(II) in acidic and basic buffer media (1983)

Pujari, Mahesh P. ; Banerjee, Pradyot

Springer

Transition metal chemistry 8 (1983), S. 91-93

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ISSN: 1572-901X

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Summary Kinetics of the oxidation of Co(cydta)2− (H4cydta=trans-1,2-diaminocyclohexane-N,N,N′,N′-tetraacetic acid) by peroxodisulphate (S2O 8 2− ) and by hydrogen peroxide have been studied in the ranges of pH 3.6–5.8 (acetate buffer) and 6.0–8.0 (phosphate buffer), respectively. For the first oxidant, the reaction was shown to exhibit second-order kinetics, first-order in each of the reactants. No pH dependence on rate was observed. The hydrogen peroxide reaction was also second-order, being first-order in each of the reactants. The rate of reaction showed inverse [H+] dependence. The rate law is given by $${\text{d[Co(cydta)}}^-- {\text{]/dt = 2\{ k}}_{{\text{H}}_{\text{2}} O_2 } {\text{ + k}}_{{\text{H}}O_2 - } {\text{K}}_{\text{a}} {\text{[H}}^{\text{ + }} {\text{]}}^{--1} {\text{\} [Co(cydta)}}^{{\text{2}}--} {\text{][H}}_{\text{2}} {\text{O}}_{\text{2}} {\text{]}}$$ . At 30 °C (I, 0.5 M), the ratio of $$k_{HO_2 - } /k_{H_2 O_2 } \sim 10^5 $$ . The corresponding activation parameters obtained from the temperature-dependence of rate are ΔH≠= (136±9) kJ mol−1, ΔS≠=(119±10) JK−1 mol−1 (for the peroxodisulphate system) and ΔH≠=(75±2) kJ mol−1, ΔS≠ =(−78±4) JK−1 mol−1 (for the hydrogen peroxide system).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01036087

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Kinetics and mechanism of the reactions ofcis-tetraaminediaqua-cobalt(III) with nitrite, azide and salicylate ions in aqueous acidic media (1984)

Ghosh, Manik C. ; Bhattacharya, Prabir ; Banerjee, Pradyot

Springer

Transition metal chemistry 9 (1984), S. 68-73

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ISSN: 1572-901X

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Summary Kinetic studies of the anation of the title complex by NO 2 − show that it occurs in a stepwise manner leading to thecis-dinitro-complex both steps having a common rate equation:-d[complex]/dt = a[NO 2 − ]/{[NO 2 − ] + b}. The variation ofpseudo-first-order rate constant (kobs) with [NO 2 − ] indicates that the reaction proceeds through ion-pair interchange path. Activation parameters calculated by the Eyring equation are: ΔH 1 ≠ = (65±7) kJ mol−1 and ΔS 1 ≠ = (−82±11) JK−1 mol−1 for the formation of [Co(NH3)4(NO2)(H2O)]2+, and ΔH 2 ≠ = (97±1) kJ mol−1 and ΔS 2 ≠ = (6±2) JK−1 mol−1 for the formation of [Co(NH3)4(NO2)2]+. Anation of the title complex by N 3 − at pH 4.1 also occurs in a stepwise manner ultimately producing thecis-diazido species. At a fixed pH the reaction shows a first-order dependence on [N 3 − ] for each step. pH-variation studies at a fixed [N 3 − ] show that the hydroxoaqua-form of the complex reactsca. 16 times faster than the diaqua form. Evidence is presented for an ion-pair preequilibrium at high ionic strength (I = 2.0 mol dm−3). Activation parameters obtained from temperature variation studies are: ΔH 1 ≠ = (121±1) kJ mol−1 and ΔS 1 ≠ = (104±3) JK−1 mol−1 (for the first step anation), and ΔH 2 ≠ = (111±2) kJ mol−1 and ΔS 2 ≠ = (74±9) JK−1 mol−1 (for the second step anation). The reaction ofcis-tetraaminediaquacobalt(III) ion with salicylate (HSal−) has been studied in aqueous acidic medium in the temperature range 39.8–58.2°C. The reaction is biphasic corresponding to the anation of two salicylate ions. The kinetic results for the first phase reaction are compatible with the equation: kobs = kIPQ[HSal−]/(1 + Q[HSal−]) where Q denotes ion-pair formation constant and kIP is the first-order rate constant for the interchange reaction. The activation parameters obtained from the temperature dependence of rate are: ΔH≠ = (138±3) kJ mol−1 and ΔS≠ = (135±4) JK−1 mol−1. The reaction seems to take place by a dissociative interchange mechanism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00619005

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