Add to ORKGAbstract: During last decades interest in ferrates(VI) has increased significantly. On one hand they serve as strong, non-toxic oxidants without harmful by-products and, on the other hand, as an efficient coagulant in both drinking and waste water treatment technology. In this work we focused on the electrochemical preparation of ferrate (VI) salts in eutectic low temperature molten sodium hydroxide -water mixture using pure iron anodes. Some information on the stability and kinetics of decomposition of sodium ferrate(VI) prepared by molten-system electrolysis is discussed. An assumption that electrochemically prepared ferrate(VI) in molten hydroxide media are stable enough to be used especially in the field of waste water treatment was con...
Molten oxide electrolysis can be used to reduce the carbon dioxide emissions from ironmaking. In thi...
The oxidation of iron compounds from alkaline 10 M KOH electrolytes on a boron doped diamond electr...
Nickel ferrite based cermets were examined as possible materials for inert, oxygen evolving anodes i...
The electrochemical preparation of ferrate by the anodic dissolution of iron and its alloys in conce...
Ferrates(VI) are potentially an environmental friendly cleaner for both waste water and drinking wat...
An investigation into the electrochemical production of ferrate ions by anodic dissolution of iron a...
The optimization of ferrate(VI) ion generation has been studied due to its favorable characteristics...
The optimization of ferrate(VI) ion generation has been studied due to its favorable characteristics...
In part I [1] of the investigation the behavior of iron and selected low carbon steels in concentrat...
Ferrate (VI) is a powerful oxidizing agent in aqueous media. Despite numerous beneficial properties ...
The higher oxidation states of iron (Fe(VI) and Fe(V) in particular) have been shown to be strongly ...
International audienceThis work is focused on the preparation of alkali ferrates, especially sodium ...
This work is a result of previously done studies on the synthesis of A2FeVIO4 wet ferrate (VI) for-m...
Our previous studies on the electrowinning of iron from hematite particles suspended in sodium hydro...
This works aims at preparing at room stable Na2FeO4 and tracking its degradation over time. The synt...
Molten oxide electrolysis can be used to reduce the carbon dioxide emissions from ironmaking. In thi...
The oxidation of iron compounds from alkaline 10 M KOH electrolytes on a boron doped diamond electr...
Nickel ferrite based cermets were examined as possible materials for inert, oxygen evolving anodes i...
The electrochemical preparation of ferrate by the anodic dissolution of iron and its alloys in conce...
Ferrates(VI) are potentially an environmental friendly cleaner for both waste water and drinking wat...
An investigation into the electrochemical production of ferrate ions by anodic dissolution of iron a...
The optimization of ferrate(VI) ion generation has been studied due to its favorable characteristics...
The optimization of ferrate(VI) ion generation has been studied due to its favorable characteristics...
In part I [1] of the investigation the behavior of iron and selected low carbon steels in concentrat...
Ferrate (VI) is a powerful oxidizing agent in aqueous media. Despite numerous beneficial properties ...
The higher oxidation states of iron (Fe(VI) and Fe(V) in particular) have been shown to be strongly ...
International audienceThis work is focused on the preparation of alkali ferrates, especially sodium ...
This work is a result of previously done studies on the synthesis of A2FeVIO4 wet ferrate (VI) for-m...
Our previous studies on the electrowinning of iron from hematite particles suspended in sodium hydro...
This works aims at preparing at room stable Na2FeO4 and tracking its degradation over time. The synt...
Molten oxide electrolysis can be used to reduce the carbon dioxide emissions from ironmaking. In thi...
The oxidation of iron compounds from alkaline 10 M KOH electrolytes on a boron doped diamond electr...
Nickel ferrite based cermets were examined as possible materials for inert, oxygen evolving anodes i...