The effects of the nanoscale particle size of RuO 2 in thermally prepared RuO 2-coated Ti
anodes on electrochemical kinetic parameters such as the active surface area and Tafel …

The effects of ruthenium content on Ti/RuO 2-Sb 2 O 5-SnO 2 anodes are investigated in
terms of catalytic activity and stability for oxygen evolution. The best electrochemical stability …

Oxygen reduction at RuO2-coated titanium electrodes prepared by thermal decomposition
was investigated by employing cyclic voltammetry and rotating-disc electrode techniques …

Electrocatalytic IrO2–RuO2 supported on Sb-doped SnO2 (ATO) nanoparticles is very active
towards the oxygen evolution reaction. The IrO2–RuO2 material is XRD amorphous and …

Ruthenium oxide (RuO2) electrocatalysts possessing high activity and stability are needed
to sustain the oxygen evolution reaction (OER) under harsh anodic conditions in acidic …

Nanocomposite cathodes for the hydrogen evolution reaction (HER) were prepared by
deposition of RuO x catalyst particles on self-organized titania nanotube (TiNT) arrays of …

Hierarchical acid-durable TiO 2@ Ru 0.9 Ir 0.1 O 2 electrodes were designed and fabricated
through the combination of in-situ hydrothermal method and thermal pyrolysis. The evolution …

Oxygen evolution reaction (OER) at the anode limits the efficiency of hydrogen production
from water electrolysis substantially. A novel electrocatalyst of RuO 2 decorating TiO 2 …

Ion exchange method as a green synthesis route is proposed to prepare hydrous ruthenium
oxide nanoparticles (H-RuO2). Calcination of H-RuO2 at 350° C resulted in the crystalline …

RuO2 films containing Pt nanoparticles were prepared by a sol–gel route on Ti substrates.
The effects of nominal composition of the film and of two different atmospheres used during …