Add to ORKGHydrogen evolution reaction (HER) is directly relevant to green hydrogen production from water splitting. Recently, a low-cost Ni5P4 material has been demonstrated experimentally and theoretically to exhibit excellent electrocatalytic activity toward HER. However, a fundamental understanding of the origin of Ni5P4(0001) activity is still lacking. In this work, density functional theory (DFT) calculations were employed for a comprehensive investigation. The calculation results indicate that the Ni5P4(0001) surface exposing Ni3P4 termination gains the highest stability, on which a nearly thermoneutral hydrogen adsorption was found at the P3-hollow sites, providing a high activity for HER. The activity was also observed to be maintained over a...
We are grateful for the generous computing resources from CSC-IT Center for Scientific Computing and...
The determination of active sites of materials is essential for the molecular design of high-perform...
The activity of Ni<sub>2</sub>P catalysts for the hydrogen evolution reaction (HER) is currently lim...
Hydrogen evolution reaction (HER) is directly relevant to green hydrogen production from water split...
We report a comprehensive density functional theory (DFT) study on the stability, geometric structur...
Nickel phosphide (Ni2P) is a promising material for the electrocatalytic generation of hydrogen from...
Ni5P4 has received considerable attention recently as a potentially viable substitute for Pt as the ...
We present insights into the mechanism and the active site for hydrogen evolution on nickel phosphid...
The exploitation of economical, efficient and durable electrocatalysts toward the hydrogen evolution...
We report microcrystalline Ni<sub>3</sub>P as a noble-metal-free electrocatalyst for the H<sub>2</su...
Ni-based catalysts are attractive alternatives to noble metal electrocatalysts for the hydrogen evol...
Ni-based catalysts are attractive alternatives to noble metal electrocatalysts for the hydrogen evol...
Catalytic hydrolysis of ammonia borane has tremendous potential as an energy-efficient approach to s...
Transition-metal alloys are currently drawing increasing attention as promising electrocatalysts for...
The activity of Ni<sub>2</sub>P catalysts for the hydrogen evolution reaction (HER) is currently lim...
We are grateful for the generous computing resources from CSC-IT Center for Scientific Computing and...
The determination of active sites of materials is essential for the molecular design of high-perform...
The activity of Ni<sub>2</sub>P catalysts for the hydrogen evolution reaction (HER) is currently lim...
Hydrogen evolution reaction (HER) is directly relevant to green hydrogen production from water split...
We report a comprehensive density functional theory (DFT) study on the stability, geometric structur...
Nickel phosphide (Ni2P) is a promising material for the electrocatalytic generation of hydrogen from...
Ni5P4 has received considerable attention recently as a potentially viable substitute for Pt as the ...
We present insights into the mechanism and the active site for hydrogen evolution on nickel phosphid...
The exploitation of economical, efficient and durable electrocatalysts toward the hydrogen evolution...
We report microcrystalline Ni<sub>3</sub>P as a noble-metal-free electrocatalyst for the H<sub>2</su...
Ni-based catalysts are attractive alternatives to noble metal electrocatalysts for the hydrogen evol...
Ni-based catalysts are attractive alternatives to noble metal electrocatalysts for the hydrogen evol...
Catalytic hydrolysis of ammonia borane has tremendous potential as an energy-efficient approach to s...
Transition-metal alloys are currently drawing increasing attention as promising electrocatalysts for...
The activity of Ni<sub>2</sub>P catalysts for the hydrogen evolution reaction (HER) is currently lim...
We are grateful for the generous computing resources from CSC-IT Center for Scientific Computing and...
The determination of active sites of materials is essential for the molecular design of high-perform...
The activity of Ni<sub>2</sub>P catalysts for the hydrogen evolution reaction (HER) is currently lim...