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The microbe, discovered earlier this year, speeds up the dissolution of iron in the water.
The dissolution of iron at high current densities occurs through this layer.
Furthermore the dissolution of iron oxide cores by electrolysis also is possible.
The role of chloride and sulphate anions on anodic dissolution of iron was studied.
Anodic dissolution of iron in a mixture of phosphoric and sulfuric acids has been investigated using a rotating disk electrode.
Acetonitrile was found to inhibit the active dissolution of iron, but does not participate in the passivation reaction.
The mechanistic theories of dissolution of iron are reassessed, and a modified mechanism is proposed to account for the results.
The anodic dissolution of iron with simultaneous oxygen evolution in KNO3 and NaClO3 solutions has been investigated experimentally.
Furthermore, increasing the temperature of the firing process leads to a higher dissolution of iron, hardly compensated by the higher diffusivity of impurities.
The kinetics of the anodic dissolution of iron and nickel are studied in the molten LiFNaFKF eutectic at 600°C by voltammetry.
High rate anodic dissolution of iron and nickel in 5 M NaCl was studied in a flow channel cell under controlled hydrodynamic conditions.
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