Oxide nanolayer formation on surface of modified blast furnace sludge particles during voltammetric cycling in alkaline media

Novák, Vlastimil; Kostura, Bruno; Raška, Pavel; Dědková, Kateřina; Mendes, Rafael G.; Gemming, Thomas; Leško, Juraj

doi:10.1007/s10008-020-04819-4

Cited by 2 publications

(4 citation statements)

References 30 publications

(43 reference statements)

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“…Also, if dissolved ion species are supplied from the electrode by its reduction, the redox reaction of Fe 2+ /Fe 3+ ( E 0 = 0.77 vs SHE) is observable in this potential window. In actuality, former studies using the magnetite electrode observed the Fe 2+ /Fe 3+ redox couple on voltammograms even when ferrous or ferric ions were not added to solutions, suggesting that dissolved iron species are supplied from magnetite. − …”

Section: Resultsmentioning

confidence: 96%

“…Figure a shows CVs recorded using the magnetite electrode at 25 °C, where the potential ( E ) was scanned in the potential range, E = 0.3 → −0.5 → 0.8 → 0.3 V (vs Ag/AgCl). CV is well characterized by one redox couple (anodic peak A 1 and cathodic peak C 1 ) at E ∼ 0.4 V and one cathodic peak (C 2 ) at E ∼ −0.1 V. Former studies assigned the C 1 /A 1 couple to the redox of dissolved Fe 2+ /Fe 3+ and C 2 to the reduction of ferric ions on the surface of the magnetite crystal (Fe magn III ). − Thus, dissolved Fe 2+ , which is supplied at C 2 , is oxidized to Fe 3+ at A 1 , and then, Fe 3+ is reduced at C 1 in the subsequent cathodic scan to give the C 1 /A 1 redox couple. Because dissolved iron species does not exist in the original solution, the A 1 /C 1 redox couple did not appear when the potential was initially scanned in the anodic direction, that is, E = 0.3 → 0.8 V, as shown in Figure b.…”

Section: Resultsmentioning

confidence: 99%

“…The dissolution of iron from minerals is a critical process governing biological activity particularly in the hydrosphere. ,, The present work has indicated that freezing possibly plays a significant role in this process of environmental importance. Iron undergoes complex equilibria in neutral or basic solutions; for example, oxyhydroxides rather than oxides become stable, , and complexation is facilitated . Therefore, the system is more complicated in high pH media because more factors should be taken into consideration.…”

Section: Discussionmentioning

confidence: 99%

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Freezing Enhances Leaching of Ferrous Ions but Hinders Reductive Dissolution of Ferric Ions from Iron Oxides

Doi

Harada

Okada

2021

ACS Earth Space Chem.

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Iron governs biological activities in the natural environment as an essential element. Although the concentrations of dissolved iron species are primarily regulated by the solubility of iron minerals, there are additional pathways of the supply of dissolved iron species from solids. Redox processes play important roles in the dissolution of iron species from minerals because ferrous ions are more soluble than ferric ions. In addition, recent studies have indicated that freezing enhances the dissolution of iron species from oxides in the presence of acids or ligands. Thus, although freeze-specific phenomena may play essential roles in the determination of this process of fundamental and environmental importance, the details have not been elucidated. In the present paper, the redox behaviors of major iron oxides, that is, magnetite, maghemite, and hematite, are studied using cyclic voltammetry in frozen acidic media. The results indicate that freezing facilitates the leaching of Fe2+ from magnetite but hinders the reduction of ferric ions in the oxide crystals. The latter is commonly observed for all iron oxides studied here. This hindrance is caused by the freeze enrichment of Fe2+ at the interface between the iron oxide and freeze-concentrated solution and by the surface adsorption of Fe2+.

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Section: Resultsmentioning

confidence: 96%

Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Freezing Enhances Leaching of Ferrous Ions but Hinders Reductive Dissolution of Ferric Ions from Iron Oxides

Doi

Harada

Okada

2021

ACS Earth Space Chem.

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“…Once Fe(0) is formed due to hydrogen evolution at a potential of approximately − 1.5 V, the anodic peak can be observed. The presence of metallic iron was proved in 43 . When starting in the cathodic direction from 0 to − 1.5 V, a sufficient amount of Fe(II) is formed and anodic peaks also occur.…”

Section: Resultsmentioning

confidence: 99%

Electrochemical characterization of leached steel-making sludge

Langová

Kostura

Raška

et al. 2022

Sci Rep

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In this work, the electrochemical properties of the leached sludge, magnetite and zinc ferrite were studied. Acetic acid was used as a leaching reagent because, in recent years, there has been a surge of interest in using zinc-containing materials as photocatalysts, with acetic acid finding application in their preparation. Various methodological approaches were used, but the best results were achieved with a combination of 1–3 h leaching in 0.01 M acetic acid with a solid/liquid ratio of 500. In this arrangement, zincite was almost completely removed from the sludge, while zinc ferrite and magnetite remained in the solid residue. Ex situ analyses of the main leaching products were performed by X-ray diffraction, infrared spectroscopy, and thermogravimetry. The electrochemical behaviour of solid residue and model systems, that are micromagnetite and zinc ferrite, was studied in alkaline media by means of modified carbon paste electrodes, cyclic voltammetry, and chronocoulometry, with a suitable potential window ranging from 0 to 1.5 V. In summary, a linear dependence of the anodic and cathodic peak height on the square root of the scan rate was found. The position of the anodic and cathodic peaks shifted slightly with scan rate, only at low rates, up to 25 mV/s, the individual peaks coincided. The electrochemical response suggested a quasireversible process.

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Oxide nanolayer formation on surface of modified blast furnace sludge particles during voltammetric cycling in alkaline media

Cited by 2 publications

References 30 publications

Freezing Enhances Leaching of Ferrous Ions but Hinders Reductive Dissolution of Ferric Ions from Iron Oxides

Freezing Enhances Leaching of Ferrous Ions but Hinders Reductive Dissolution of Ferric Ions from Iron Oxides

Electrochemical characterization of leached steel-making sludge

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