Dissolution of nickel ferrite in aqueous solutions containing oxalic acid and ferrous salts

The dissolution of nickel ferrite in oxalic acid and in ferrous oxalate- oxalic acid aqueous solution was studied. Nickel ferrite was synthesized by thermal decomposition of a mixed tartrate; the particles were shown to be coated with a thin ferric oxide layer. Dissolution takes place in two stages,...

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Autores principales: Figueroa, C.A., Sileo, E.E., Morando, P.J., Blesa, M.A.
Formato: JOUR
Materias:
Dissolution
Ferrous oxalate
Mixed oxides
Nickel ferrite
Oxalic acid
Surface complexation
ferric oxide
ferrous ion
iron
nickel
oxalic acid
tartaric acid
aqueous solution
article
catalysis
dissolution
oxidation reduction reaction
priority journal
X ray diffraction
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00219797_v225_n2_p403_Figueroa
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_00219797_v225_n2_p403_Figueroa2023-10-03T14:25:10Z Dissolution of nickel ferrite in aqueous solutions containing oxalic acid and ferrous salts Figueroa, C.A. Sileo, E.E. Morando, P.J. Blesa, M.A. Dissolution Ferrous oxalate Mixed oxides Nickel ferrite Oxalic acid Surface complexation ferric oxide ferrous ion iron nickel oxalic acid tartaric acid aqueous solution article catalysis dissolution oxidation reduction reaction priority journal X ray diffraction The dissolution of nickel ferrite in oxalic acid and in ferrous oxalate- oxalic acid aqueous solution was studied. Nickel ferrite was synthesized by thermal decomposition of a mixed tartrate; the particles were shown to be coated with a thin ferric oxide layer. Dissolution takes place in two stages, the first one corresponding to the dissolution of the ferric oxide outer layer and the second one being the dissolution of Ni1.06Fe1.96O4. The kinetics of dissolution during this first stage is typical of ferric oxides: in oxalic acid, both a ligand-assisted and a redox mechanism operates, whereas in the presence of ferrous ions, redox catalysis leads to a faster dissolution. The rate dependence on both oxalic acid and on ferrous ion is described by the Langmuir-Hinshelwood equation; the best fitting corresponds to K(1/ads) = 25.6 mol-1 dm-3 and k(1/max) = 9.17 x 10-7 mol m-2 s-1 and K(2/ads) = 37.1 x 103 mol-1 dm-3 and k(1/max) = 62.3 x 10-7 mol m-2 s-1, respectively. In the second stage, Langmuir- Hinshelwood kinetics also describes the dissolution of iron and nickel from nickel ferrite, with K(1/ads) = 20.8 mol-1 dm3 and K(2/ads) = 1.16 x 105 mol-1 dm3. For iron, k(1/max) = 1.02 x 10-7 mol of Fe m-2 s2+-1 and k(2/max) = 2.38 x 10-7 mol of Fe m-2 s-1; for nickel, the rate constants k(1/max) and k(2/max) are 2.4 and 1.79 times smaller, respectively. The factor 1.79 agrees nicely with the stoichiometric ratio, whereas the factor 2.4 implies the accumulation of some nickel in the residual particles. The rate of nickel dissolution in oxalic acid is higher than that in bunsenite by a factor of 8, whereas hematite is more reactive by a factor of 9 (in the absence of Fe(II)) and 27 (in the presence of Fe (II)). It may be concluded that oxalic acid operates to dissolve iron, and the ensuing disruption of the solid framework accelerates the release of nickel. (C) 2000 Academic Press. Fil:Sileo, E.E. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00219797_v225_n2_p403_Figueroa
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Dissolution
Ferrous oxalate
Mixed oxides
Nickel ferrite
Oxalic acid
Surface complexation
ferric oxide
ferrous ion
iron
nickel
oxalic acid
tartaric acid
aqueous solution
article
catalysis
dissolution
oxidation reduction reaction
priority journal
X ray diffraction
spellingShingle Dissolution
Ferrous oxalate
Mixed oxides
Nickel ferrite
Oxalic acid
Surface complexation
ferric oxide
ferrous ion
iron
nickel
oxalic acid
tartaric acid
aqueous solution
article
catalysis
dissolution
oxidation reduction reaction
priority journal
X ray diffraction
Figueroa, C.A.
Sileo, E.E.
Morando, P.J.
Blesa, M.A.
Dissolution of nickel ferrite in aqueous solutions containing oxalic acid and ferrous salts
topic_facet Dissolution
Ferrous oxalate
Mixed oxides
Nickel ferrite
Oxalic acid
Surface complexation
ferric oxide
ferrous ion
iron
nickel
oxalic acid
tartaric acid
aqueous solution
article
catalysis
dissolution
oxidation reduction reaction
priority journal
X ray diffraction
description The dissolution of nickel ferrite in oxalic acid and in ferrous oxalate- oxalic acid aqueous solution was studied. Nickel ferrite was synthesized by thermal decomposition of a mixed tartrate; the particles were shown to be coated with a thin ferric oxide layer. Dissolution takes place in two stages, the first one corresponding to the dissolution of the ferric oxide outer layer and the second one being the dissolution of Ni1.06Fe1.96O4. The kinetics of dissolution during this first stage is typical of ferric oxides: in oxalic acid, both a ligand-assisted and a redox mechanism operates, whereas in the presence of ferrous ions, redox catalysis leads to a faster dissolution. The rate dependence on both oxalic acid and on ferrous ion is described by the Langmuir-Hinshelwood equation; the best fitting corresponds to K(1/ads) = 25.6 mol-1 dm-3 and k(1/max) = 9.17 x 10-7 mol m-2 s-1 and K(2/ads) = 37.1 x 103 mol-1 dm-3 and k(1/max) = 62.3 x 10-7 mol m-2 s-1, respectively. In the second stage, Langmuir- Hinshelwood kinetics also describes the dissolution of iron and nickel from nickel ferrite, with K(1/ads) = 20.8 mol-1 dm3 and K(2/ads) = 1.16 x 105 mol-1 dm3. For iron, k(1/max) = 1.02 x 10-7 mol of Fe m-2 s2+-1 and k(2/max) = 2.38 x 10-7 mol of Fe m-2 s-1; for nickel, the rate constants k(1/max) and k(2/max) are 2.4 and 1.79 times smaller, respectively. The factor 1.79 agrees nicely with the stoichiometric ratio, whereas the factor 2.4 implies the accumulation of some nickel in the residual particles. The rate of nickel dissolution in oxalic acid is higher than that in bunsenite by a factor of 8, whereas hematite is more reactive by a factor of 9 (in the absence of Fe(II)) and 27 (in the presence of Fe (II)). It may be concluded that oxalic acid operates to dissolve iron, and the ensuing disruption of the solid framework accelerates the release of nickel. (C) 2000 Academic Press.
format JOUR
author Figueroa, C.A.
Sileo, E.E.
Morando, P.J.
Blesa, M.A.
author_facet Figueroa, C.A.
Sileo, E.E.
Morando, P.J.
Blesa, M.A.
author_sort Figueroa, C.A.
title Dissolution of nickel ferrite in aqueous solutions containing oxalic acid and ferrous salts
title_short Dissolution of nickel ferrite in aqueous solutions containing oxalic acid and ferrous salts
title_full Dissolution of nickel ferrite in aqueous solutions containing oxalic acid and ferrous salts
title_fullStr Dissolution of nickel ferrite in aqueous solutions containing oxalic acid and ferrous salts
title_full_unstemmed Dissolution of nickel ferrite in aqueous solutions containing oxalic acid and ferrous salts
title_sort dissolution of nickel ferrite in aqueous solutions containing oxalic acid and ferrous salts
url http://hdl.handle.net/20.500.12110/paper_00219797_v225_n2_p403_Figueroa
work_keys_str_mv AT figueroaca dissolutionofnickelferriteinaqueoussolutionscontainingoxalicacidandferroussalts
AT sileoee dissolutionofnickelferriteinaqueoussolutionscontainingoxalicacidandferroussalts
AT morandopj dissolutionofnickelferriteinaqueoussolutionscontainingoxalicacidandferroussalts
AT blesama dissolutionofnickelferriteinaqueoussolutionscontainingoxalicacidandferroussalts
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