Electrocatalytic coatings with a novel supported structure of active nanoscale rutile Ru x Ti1−
x O2 particles (3 nm) onto in situ formed anatase TiO2 (20 nm) were achieved by a facile …

Abstract The (Ru 0.3 Ti 0.34 Sn 0.3 Sb 0.06) O 2–TiO 2 nanotubes (TNTs) anode has been
prepared via anodization, deposition, and annealing. X-ray diffraction, field-emission …

The chlorine evolution reaction (CER) is essential for chlorine (Cl 2) production. However,
the catalyst deactivation and side reaction oxygen evolution reaction (OER) are still serious …

Chlorine gas, mainly produced by the chlor-alkali industry, plays a crucial role in chemical
synthesis, water treatment and electronics industry. Herein, facile hydrothermal growth …

We report a facile and controllable approach to design anodic catalysts with different surface
morphologies. The RuO 2–TiO 2 anodes are directly grown in situ on the surface of Ti …

Ru-and Ti-based oxide electrocatalysts have been intensively studied for chlorine evolution
reactions since their synergistic effect was demonstrated in commercial dimensionally stable …

Herein, we reported a novel RuO2‐TiO2 composite electrode prepared by thermal
decomposition process using TiO2 nanotube arrays (TNTs) as an interlayer. Specifically, the …

We demonstrate an electrochemical approach to prepare a highly active and stable (Zn, Ru)-
doped TiO2 (Ru0. 26Ti0. 73Zn0. 01Ox) for electrochemical generation of KClO3. The …

This study reports enhanced current (CE RCS) and energy efficiency (EE RCS) of reactive
chlorine species (RCS) generation on Ir 7 Ta 3 O y anode by Ti/Bi mixed metal oxide …

Cathodes for chlorate electrolysis were prepared by mixing nanocrystalline Ti–Ru–Fe–O
catalyst powder with small amounts of Teflon and subsequent hot pressing on a carbon …