3D
Urchin-like Hierarchical Black TiO2 Hollow
Nanospheres: A Highly Active and Stable Electrocatalyst for Water
Oxidation in Alkaline and Neutral Media
posted on 2021-12-22, 16:03authored byRaji Vadakkekara, Sandesh R. Jadkar
Highly
proficient, earth-abundant, long-term stable bifunctional
electrocatalysts are very much desired for overall water splitting
reactions. The present paper describes one such stable bifunctional
electrocatalyst, 3D hollow nanostructured hierarchical hydrogenated
TiO2 (H-TiO2) prepared by low-temperature treatment.
The H-TiO2 electrocatalyst can catalyze oxygen evolution
reaction (OER) and hydrogen evolution reaction (HER) with a low overpotential
of 270 and 128 mV at 10 mA cm–2 in alkaline media.
Moreover, it exhibits an unusual catalytic activity in neutral electrolyte
as well. The corresponding lower Tafel values indicate faster reaction
kinetics on the H-TiO2 surfaces. When H-TiO2 is implemented as both the anode and cathode in a two-electrode
system for overall water splitting in alkaline and neutral media,
it only needs 1.57 and 2.11 V to reach a current density of 10 mA
cm–2 and displays good durability for 12 h. The
results suggest that Ti3+ and abundant oxygen vacancies
in H-TiO2 favor HER and OER, which might originate from
the enhanced electrical conductivity and rapid charge transfer rate
due to the controlled interplay of the favoring factors. Thus, the
present research work demonstrates a promising strategy for developing
a highly efficient, stable, and carbon-free substitute for noble metal-based
electrocatalysts for the overall water splitting in alkaline and neutral
media.