Add to ORKGElectrochemical splitting of water is an attractive way to produce hydrogen fuel as a clean and renewable energy source. However, a major challenge is to accelerate the sluggish kinetics of the anodic half-cell reaction where oxygen evolution reaction (OER) takes place. Here, a seamlessly conductive 3D architecture is reported with a carbon-shelled Ni-Co nanowire network as a highly efficient OER electrocatalyst. Highly porous and granular Ni-Co nanowires are first grown on a carbon fiber woven fabric utilizing a costeffective hydrothermal method and then conductive carbon shell is coated on the Ni-Co nanowires via glucose carbonization and annealing processes. The conductive carbon layer surrounding the nanowires is introduced to provide a...
Highly efficient and low-cost electrocatalysts are essential for water spitting via electrolysis in ...
Electrolytic water splitting using surplus electricity represents one of the most cost-effective and...
In this letter, we report a facile self-foaming strategy to synthesize Ni<sub>3</sub>C nanoparticles...
The exploration of efficient and economical electrocatalysts towards the oxygen evolution reaction (...
Earth-abundant and highly efficient electrocatalysts for the hydrogen evolution reaction (HER) are d...
The development of efficient, eco-friendly, and inexpensive electrocatalysts has become crucial and ...
Oxygen evolution reaction (OER) is known to have a significant role in renewable energy. Herein, we ...
The development of new materials/structures for efficient electrocatalytic water oxidation, which is...
Exploring inexpensive, universal, highly active and stable electrocatalysts toward the oxygen reduct...
textAs demands for alternative sources of energy increase over the coming decades, water electrolysi...
Efficient electrocatalysts for oxygen evolution are vitally important for regenerative fuel cells an...
Herein we report a 3D heterostructure comprising a hierarchical macroporous carbon foam that incorpo...
Efficiency of hydrogen evolution via water electrolysis is mainly impeded by the kinetically sluggis...
Developing low cost, highly active and stable electrocatalysts for both the hydrogen evolution react...
A homologous Ni–Co based nanowire system, consisting of both nickel cobalt oxide and nickel cobalt s...
Highly efficient and low-cost electrocatalysts are essential for water spitting via electrolysis in ...
Electrolytic water splitting using surplus electricity represents one of the most cost-effective and...
In this letter, we report a facile self-foaming strategy to synthesize Ni<sub>3</sub>C nanoparticles...
The exploration of efficient and economical electrocatalysts towards the oxygen evolution reaction (...
Earth-abundant and highly efficient electrocatalysts for the hydrogen evolution reaction (HER) are d...
The development of efficient, eco-friendly, and inexpensive electrocatalysts has become crucial and ...
Oxygen evolution reaction (OER) is known to have a significant role in renewable energy. Herein, we ...
The development of new materials/structures for efficient electrocatalytic water oxidation, which is...
Exploring inexpensive, universal, highly active and stable electrocatalysts toward the oxygen reduct...
textAs demands for alternative sources of energy increase over the coming decades, water electrolysi...
Efficient electrocatalysts for oxygen evolution are vitally important for regenerative fuel cells an...
Herein we report a 3D heterostructure comprising a hierarchical macroporous carbon foam that incorpo...
Efficiency of hydrogen evolution via water electrolysis is mainly impeded by the kinetically sluggis...
Developing low cost, highly active and stable electrocatalysts for both the hydrogen evolution react...
A homologous Ni–Co based nanowire system, consisting of both nickel cobalt oxide and nickel cobalt s...
Highly efficient and low-cost electrocatalysts are essential for water spitting via electrolysis in ...
Electrolytic water splitting using surplus electricity represents one of the most cost-effective and...
In this letter, we report a facile self-foaming strategy to synthesize Ni<sub>3</sub>C nanoparticles...