Add to ORKGThe transition from fossil fuel to clean energy requires inexpensive, efficient, and stable catalysts that can enhance reactions limited by high overpotential. In this work, we construct cuprous oxide thin films modified with a Ni overlayer for the oxygen evolution reaction. The best catalyst has an onset overpotential of only 150 mV. Using novel surface characterization techniques such as XRD, SEM, and EDS, the catalyst performance is found to be highly dependent on the composition and morphology of the catalyst
A specific investigation was carried out to study the influence of the Ni/Fe ratio for oxygen evolut...
The amorphous NiFeOx(OH)(y) is synthesized on Fe, Ni, and Cu foam substrates to study the effects of...
Ni1-xFexOOH thin films prepared via cathodic electrodeposition have been demonstrated to be highly a...
The electrolysis of water is limited by the high overpotential of the oxygen evolution reaction (OER...
Ultrathin and transparent nanostructured Ni(OH)2 films were deposited on conducting glass (F:SnO2) b...
Introducing Ni in Ru oxide is a promising approach to enhance the catalytic activity for the oxygen ...
Efficient catalysts made of cheap and abundant metal ions are in need to overcome the sluggish kinet...
Efficient and earth abundant electrocatalysts for high-performance oxygen evolution reaction (OER) a...
A detailed investigation has been carried out of the structure and electrochemical activity of elect...
Depositionofnickelonelectrodeposited Cu O films was investigated at potentials more positive than th...
Optically transparent cocatalyst film materials is very desirable for improved photoelectrochemical ...
Mixed nickel-iron oxides are of great interest as electrocatalysts for the oxygen evolution reaction...
Thin films of Ni-oxy-hydroxides of different composition and thickness were electrochemically grown ...
NiO-based electrocatalysts, known for their high activity, stability, and low cost in alkaline media...
Water oxidation is a critical step in water splitting to make hydrogen fuel. We report the solution ...
A specific investigation was carried out to study the influence of the Ni/Fe ratio for oxygen evolut...
The amorphous NiFeOx(OH)(y) is synthesized on Fe, Ni, and Cu foam substrates to study the effects of...
Ni1-xFexOOH thin films prepared via cathodic electrodeposition have been demonstrated to be highly a...
The electrolysis of water is limited by the high overpotential of the oxygen evolution reaction (OER...
Ultrathin and transparent nanostructured Ni(OH)2 films were deposited on conducting glass (F:SnO2) b...
Introducing Ni in Ru oxide is a promising approach to enhance the catalytic activity for the oxygen ...
Efficient catalysts made of cheap and abundant metal ions are in need to overcome the sluggish kinet...
Efficient and earth abundant electrocatalysts for high-performance oxygen evolution reaction (OER) a...
A detailed investigation has been carried out of the structure and electrochemical activity of elect...
Depositionofnickelonelectrodeposited Cu O films was investigated at potentials more positive than th...
Optically transparent cocatalyst film materials is very desirable for improved photoelectrochemical ...
Mixed nickel-iron oxides are of great interest as electrocatalysts for the oxygen evolution reaction...
Thin films of Ni-oxy-hydroxides of different composition and thickness were electrochemically grown ...
NiO-based electrocatalysts, known for their high activity, stability, and low cost in alkaline media...
Water oxidation is a critical step in water splitting to make hydrogen fuel. We report the solution ...
A specific investigation was carried out to study the influence of the Ni/Fe ratio for oxygen evolut...
The amorphous NiFeOx(OH)(y) is synthesized on Fe, Ni, and Cu foam substrates to study the effects of...
Ni1-xFexOOH thin films prepared via cathodic electrodeposition have been demonstrated to be highly a...