Dior Etherton scite author profile

The world is in the process of transitioning toward a more sustainable energy future, with green hydrogen considered an attractive energy vector that can replace fossil fuel consumption, meeting global energy demands. To date, the most advanced method to produce green hydrogen is through water electrolysis using the residual supply of renewable energy. The current state-of-the-art catalysts used in electrolyzers are platinum-based metals and ruthenium/iridium oxides. The scarceness of these elements, combined with their high price, make these catalysts not economically viable for large-scale production of hydrogen through water electrolysis. This study presents cobalt boride nanoflakes as materials to be used in both the anode and the cathode of an electrolyzer for electrochemical water splitting over a wide pH range. The cobalt boride nanoflakes were synthesized by the chemical reduction of CoCl2 using NaBH4 at three different concentrations to obtain CoB and Co2B nanoflakes. CoB nanoflakes exhibited both a higher specific surface area and greatest disparity in charge between B and Co, in comparison to Co2B. It was demonstrated that by tuning the properties of the cobalt boride nanoflakes, higher catalytic activities for both the hydrogen and oxygen evolution reaction can be achieved, showing good overall stability.

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3D visualization of segmented volume data showing abdominal organs from different angles, with removal of bony structures

Etherton¹,

Tee²,

Tillett³

et al. 2020

ASVIDE

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3D stereoscopic visualization of segmented volume data on a Hologram Table

Etherton¹,

Tee²,

Tillett³

et al. 2020

ASVIDE

View full text Add to dashboard Cite

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Dior Etherton

3D visualization and 3D printing in abnormal gastrointestinal system manifestations of situs ambiguus

Tuning the Catalytic Activity of Bifunctional Cobalt Boride Nanoflakes for Overall Water Splitting over a Wide pH Range

3D visualization of segmented volume data showing abdominal organs from different angles, with removal of bony structures

3D stereoscopic visualization of segmented volume data on a Hologram Table

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