Reaction Selectivity of IrO₂-Based Nano/Amorphous Hybrid Oxide-Coated Titanium Anodes in Acidic Aqueous Solutions: Oxygen Evolution and Lead Oxide Deposition

Abstract: The present study demonstrated that novel IrO2-Ta2O5/Ti anodes prepared by thermal decomposition at a low temperature of 380 °C have high reaction selectivity for oxygen evolution and metal oxide deposition in acidic aqueous solutions. Conventional IrO2-Ta2O5/Ti anodes are generally prepared at a temperature between 450 °C and 500 °C. However, if Pb(II) ions are present as an impurity in the electrolyte, the oxidation of Pb(II) ions occurs as an anodic side reaction, leading to deposition of PbO2 onto the conv… Show more

“…of β-PbO 2 has also been reported as a by-product of electrolysis in a lead sulfate solution. 40 Effect of radiation wavelength.-We confirmed that PbO 2 particles were deposited in the upper part of the nanotubes with ∼3 μm length in both photoanodes. This could be explained by the short penetration depth of the incident light upon UV light irradiation.…”

Clarification of Photoelectrochemical Oxygen Evolution Sites in TiO₂ Nanotube Array Electrodes by PbO₂ Deposition Method

“…of β-PbO 2 has also been reported as a by-product of electrolysis in a lead sulfate solution. 40 Effect of radiation wavelength.-We confirmed that PbO 2 particles were deposited in the upper part of the nanotubes with ∼3 μm length in both photoanodes. This could be explained by the short penetration depth of the incident light upon UV light irradiation.…”

Clarification of Photoelectrochemical Oxygen Evolution Sites in TiO₂ Nanotube Array Electrodes by PbO₂ Deposition Method

Preparation of insoluble Ti/IrO2/MoS2 anodes by electrodeposition and its application in electrolytic copper foil

Study on electrochemical properties of active coating PbO2-CeO2 reinforced Al-based composite coating electrode