Autoxidation of Ni(II) and Co(II) tetra, penta and hexaglycine complexes accelerated by oxy sulfur radicals

Carvalho, Luciana Batista de; Alipázaga, María V.; Lowinsohn, Denise; Bertotti, Mauro; Coichev, Nina

doi:10.1590/s0103-50532006000700030

Cited by 6 publications

(3 citation statements)

References 25 publications

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“…The N-dealkylation does not proceed to completion, suggesting another competing oxidation process, probably involving m-peroxo dicobalt complexes. Kinetics of autoxidation of Ni II and Co II complexes of tetrapenta-and hexa-glycine have been reported, 38 expanding on previous reports by the same authors. The decomposition of hexaaquacobalt(III) in aqueous perchloric acid has been reported.…”

Section: Redox Reactionssupporting

confidence: 63%

Reaction mechanisms in solution

Haines

2007

Annu. Rep. Prog. Chem., Sect. A: Inorg. Chem.

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Section: Redox Reactionssupporting

confidence: 63%

Reaction mechanisms in solution

Haines

2007

Annu. Rep. Prog. Chem., Sect. A: Inorg. Chem.

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“…Our previous work 27 carried out in solutions containing each metal ion complex (Ni(II)/G n or Co(II)/G n ) in the presence of S(IV) and oxygen (at pH=9) showed that Ni(III)/G n formation is fast reaching a limit absorbance after 1s, followed by its decomposition via ligand oxidation. At the same experimental conditions, Co(III)/G n formation is much slower than Ni(III)/G n formation, after S(IV) consumption the Co(III)/G n formation is slow due to the oxidation of Co(II)/G n by the oxygen still remaining in solution.…”

Section: Initiation In the Absence Of Added Ni(ii) Or Co(ii)mentioning

confidence: 99%

Further studies on the synergistic effect of Ni(II) and Co(II) ions on the sulfite induced autoxidation of Cu(II) penta and hexaglycine complexes

Carvalho¹,

Alipázaga²,

Moreno³

et al. 2007

J. Braz. Chem. Soc.

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A reação de autoxidação dos complexos de Cu(II)/penta e hexaglicina em pH=9 é muito lenta, apresentando um período longo de indução (aproximadamente 4 horas). A presença de S(IV) praticamente não altera a velocidade desta reação. A adição de pequenas quantidades de Ni(II) ou Co(II) aumenta significativamente a velocidade da reação e a eficiência da formação de Cu(III), diminuindo o período de indução para menos de 0,5 s. A constante de velocidade observada para a formação de Cu(III) também depende da concentração de S(IV). A discussão do mecanismo é baseada nas informações disponíveis na literatura e envolve uma cadeia de reações com formação de radicais e um ciclo de oxirredução dos íons metálicos complexados.The autoxidation of Cu(II)/penta and hexaglycine complexes at pH = 9 is very slow showing a large induction period (about 4 h). The presence of S(IV) practically does not affect the rate of this reaction. Addition of small amounts of Ni(II) or Co(II) increases significantly the reaction rate and the effectiveness of Cu(III) formation, the induction period becomes as short as 0.5 s. The observed rate constant for Cu(III) formation also depends on the S(IV) concentration. The mechanism is discussed based on the available literature information and involves a radical chain and redox cycling of the metal ion complexes.

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“…In the case of Ni(II), several works have been reported in the literature (11,13,(16)(17)(18)(19). Currently, increasing interest in the formation of Ni(III) peptide complexes has been noticed because of the probable participation of these species in DNA damage processes (7).…”

Section: Introductionmentioning

confidence: 99%

Rotating ring-disk voltammetric investigations on the degradation rate of the nickel(III)-glycylglycyl-L-histidine complex

Alipázaga¹,

Lowinsohn²,

Bertotti³

et al. 2007

Can. J. Chem.

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The voltammetric behavior of the Ni(II)/glycylglycyl-L-histidine complex and the degradation of the electrogenerated Ni(III) species were investigated by cyclic voltammetry. Results of electrochemical and spectrophotometric experiments indicated some differences in the nature and reactivity of Ni(III) complexes formed by two independent routes, i.e., anodic oxidation of Ni(II) and homogeneous oxidation by an autocatalytic reaction in a medium containing oxygen and S(IV) (H 2 SO 3 , HSO 3 − , and SO 3 2− ). The Ni(III) species formed electrochemically reacts in a fast chemical process (EC mechanism) and the observed rate constant of the degradation (k = 0.17 s -1 ) was determined by a rotating ring-disk electrode technique measuring kinetic collection efficiency values as a function of the rotation rate.Résumé : Faisant appel à des méthodes de voltampérométrie cyclique, on a étudié le comportement voltampéromé-trique du complexe Ni(II)/glycylgly-L-cylhistidine et la dégradation des espèces Ni(III) électrogénérées. Les résultats des expériences électrochimiques et spectrophotométriques indiquent qu'il existe de légères différences dans la nature et la réactivité des complexes de Ni(III) qui se forment par deux voies réactionnelles indépendantes, soit l'oxydation anodique du Ni(II) et l'oxydation homogène par une réaction autocatalytique dans un milieu contenant de l'oxygène et des espèces à base de S(IV), telles H 2 SO 3 , HSO 3 − et SO 3 2− . Les espèces de Ni(III) qui se forment d'une façon électro-chimique réagissent par un processus chimique rapide (mécanisme EC) et on a déterminé la constante de vitesse observée pour la dégradation (k = 0,17 s -1 ) par la technique de l'électrode à disque tournant en mesurant les valeurs de l'efficacité de la collection cinétique en fonction de la vitesse de rotation.

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Autoxidation of Ni(II) and Co(II) tetra, penta and hexaglycine complexes accelerated by oxy sulfur radicals

Cited by 6 publications

References 25 publications

Reaction mechanisms in solution

Reaction mechanisms in solution

Further studies on the synergistic effect of Ni(II) and Co(II) ions on the sulfite induced autoxidation of Cu(II) penta and hexaglycine complexes

Rotating ring-disk voltammetric investigations on the degradation rate of the nickel(III)-glycylglycyl-L-histidine complex

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