Add to ORKGA cost-effective and scalable approach was developed to produce monodisperse Ni2-xCoxP nanocrystals (NCs) with composition tuned over the entire range (0 = x = 2). Ni2-xCoxP NCs were synthesized using low-cost, stable and low-toxicity triphenyl phosphite (TPP) as a phosphorus source, metal chlorides as metal precursors and hexadecylamine (HDA) as a ligand. The synthesis involved the nucleation of amorphous Ni–P and its posterior crystallization and simultaneous incorporation of Co. The composition, size and morphology of the Ni2-xCoxP NCs could be controlled simply by varying the ratio of Ni and Co precursors and the amounts of TPP and HDA. Ternary Ni2-xCoxP-based electrocatalysts exhibited enhanced electrocatalytic activity toward the hydr...
Lack of high-performance noble-metal free electrocatalysts for hydrogen evolution reaction (HER) to ...
Lack of high-performance noble-metal free electrocatalysts for hydrogen evolution reaction (HER) to ...
The preparation of size- and shape-controlled nanoparticles has enabled the understanding of importa...
A cost-effective and scalable approach was developed to produce monodisperse Ni2-xCoxP nanocrystals ...
A cost-effective and scalable approach was developed to produce monodisperse Ni2−xCoxP nanocrystals ...
A cost-effective and scalable approach was developed to produce monodisperse NiCoP nanocrystals (NCs...
[eng] Metal phosphides are an important class of functional materials that exhibit a wide range of a...
Metal phosphides are an important class of functional materials that exhibit a wide range of applica...
Metal phosphides are an important class of functional materials that exhibit a wide range of applica...
The sustainable hydrogen fuel from water electrolysis demands the development of efficient and robus...
Nanoparticles of nickel phosphide (Ni_2P) have been investigated for electrocatalytic activity and s...
Nanoparticles of nickel phosphide (Ni_2P) have been investigated for electrocatalytic activity and s...
Nanoparticles of nickel phosphide (Ni_2P) have been investigated for electrocatalytic activity and s...
The thermodynamically favorable electrocatalytic oxidation coupled with hydrogen evolution reaction ...
Development of earth-abundant, efficient, and stable electrocatalysts for hydrogen evolution reactio...
Lack of high-performance noble-metal free electrocatalysts for hydrogen evolution reaction (HER) to ...
Lack of high-performance noble-metal free electrocatalysts for hydrogen evolution reaction (HER) to ...
The preparation of size- and shape-controlled nanoparticles has enabled the understanding of importa...
A cost-effective and scalable approach was developed to produce monodisperse Ni2-xCoxP nanocrystals ...
A cost-effective and scalable approach was developed to produce monodisperse Ni2−xCoxP nanocrystals ...
A cost-effective and scalable approach was developed to produce monodisperse NiCoP nanocrystals (NCs...
[eng] Metal phosphides are an important class of functional materials that exhibit a wide range of a...
Metal phosphides are an important class of functional materials that exhibit a wide range of applica...
Metal phosphides are an important class of functional materials that exhibit a wide range of applica...
The sustainable hydrogen fuel from water electrolysis demands the development of efficient and robus...
Nanoparticles of nickel phosphide (Ni_2P) have been investigated for electrocatalytic activity and s...
Nanoparticles of nickel phosphide (Ni_2P) have been investigated for electrocatalytic activity and s...
Nanoparticles of nickel phosphide (Ni_2P) have been investigated for electrocatalytic activity and s...
The thermodynamically favorable electrocatalytic oxidation coupled with hydrogen evolution reaction ...
Development of earth-abundant, efficient, and stable electrocatalysts for hydrogen evolution reactio...
Lack of high-performance noble-metal free electrocatalysts for hydrogen evolution reaction (HER) to ...
Lack of high-performance noble-metal free electrocatalysts for hydrogen evolution reaction (HER) to ...
The preparation of size- and shape-controlled nanoparticles has enabled the understanding of importa...