Themed collection FOCUS: Electrocatalytic Hydrogen Evolution

12 items
Research Article

Interface engineering of hierarchical P-doped NiSe/2H-MoSe2 nanorod arrays for efficient hydrogen evolution

P-NiSe/MoSe2 exhibits excellent HER properties due to the modulation of the electronic structure by P doping and the synergistic effect arising from the heterostructure.

Graphical abstract: Interface engineering of hierarchical P-doped NiSe/2H-MoSe2 nanorod arrays for efficient hydrogen evolution
From the themed collection: FOCUS: Electrocatalytic Hydrogen Evolution
Research Article

Manipulating Ru oxidation within electrospun carbon nanofibers to boost hydrogen and oxygen evolution for electrochemical overall water splitting

1D bifunctional RuO2/Ru-CNFs-350 catalyst is fabricated to show high activity and remarkable durability toward both OER and HER due to the formation of a RuO2/Ru heterostructure and the carbon substrate.

Graphical abstract: Manipulating Ru oxidation within electrospun carbon nanofibers to boost hydrogen and oxygen evolution for electrochemical overall water splitting
From the themed collection: FOCUS: Electrocatalytic Hydrogen Evolution
Research Article

Tuning the electronic communication of the Ru–O bond in ultrafine Ru nanoparticles to boost the alkaline electrocatalytic hydrogen production activity at large current density

Ru nanoparticles coordinated with O supported on a carbon matrix were synthesized. The electron communication between Ru and O accelerated the charge transfer and thus improved the electrocatalytic hydrogen production activity.

Graphical abstract: Tuning the electronic communication of the Ru–O bond in ultrafine Ru nanoparticles to boost the alkaline electrocatalytic hydrogen production activity at large current density
From the themed collection: FOCUS: Electrocatalytic Hydrogen Evolution
Research Article

Bifunctional atomically dispersed ruthenium electrocatalysts for efficient bipolar membrane water electrolysis

Bifunctional atomically dispersed ruthenium electrocatalysts with a low metal loading (0.2 wt%) exhibit outstanding performance for bipolar membrane water electrolysis.

Graphical abstract: Bifunctional atomically dispersed ruthenium electrocatalysts for efficient bipolar membrane water electrolysis
From the themed collection: FOCUS: Electrocatalytic Hydrogen Evolution
Research Article

Accelerating hydrazine-assisted hydrogen production kinetics with Mn dopant modulated CoS2 nanowire arrays

The designed Mn-modified CoS2 catalyst exhibits outstanding bifunctional electrocatalytic performances toward hydrogen evolution reaction and hydrazine oxidation reaction for high-efficiency energy-saving H2 production by water-assisted electrolysis.

Graphical abstract: Accelerating hydrazine-assisted hydrogen production kinetics with Mn dopant modulated CoS2 nanowire arrays
From the themed collection: FOCUS: Electrocatalytic Hydrogen Evolution
Research Article

Efficient hydrogen evolution by reconstruction of NiMoO4–CoO via Mo recombination

Surface reconstruction in NiMoO4–CoO nanosheet catalyst through Mo dissolution with subsequent formation of K2Mo3O10 is disclosed, which brings more active sites and enhanced charge transfer, and boosts intrinsic HER activity per catalysis site.

Graphical abstract: Efficient hydrogen evolution by reconstruction of NiMoO4–CoO via Mo recombination
From the themed collection: FOCUS: Electrocatalytic Hydrogen Evolution
Research Article

Achieving ultra-dispersed 1T-Co-MoS2@HMCS via space-confined engineering for highly efficient hydrogen evolution in the universal pH range

A multi-level spatial confinement strategy is proposed for the fabrication of ultra-dispersed 1T-Co-MoS2 nanoclusters, which exhibit remarkable electrocatalytic activity and durability for HER.

Graphical abstract: Achieving ultra-dispersed 1T-Co-MoS2@HMCS via space-confined engineering for highly efficient hydrogen evolution in the universal pH range
From the themed collection: FOCUS: Electrocatalytic Hydrogen Evolution
Research Article

Crystal–amorphous NiO/MoO2 with a high-density interface for hydrogen evolution

Crystal–amorphous NiO/MoO2 with a coupled high-density and well-dispersed heterojunction has been designed to tailor the charge distribution to lower the reaction energy barrier for the HER.

Graphical abstract: Crystal–amorphous NiO/MoO2 with a high-density interface for hydrogen evolution
From the themed collection: FOCUS: Electrocatalytic Hydrogen Evolution
Research Article

Phosphorus doped two-dimensional CoFe2O4 nanobelts decorated with Ru nanoclusters and Co–Fe hydroxide as efficient electrocatalysts toward hydrogen generation

Phosphorus doped two-dimensional CoFe2O4 nanobelts decorated with Ru and CoFe hydroxide clusters on iron foam (CoFeOxHy–Ru/P–CoFe2O4/IF) are synthesized as efficient electrocatalysts for the highly electrocatalytic HER.

Graphical abstract: Phosphorus doped two-dimensional CoFe2O4 nanobelts decorated with Ru nanoclusters and Co–Fe hydroxide as efficient electrocatalysts toward hydrogen generation
From the themed collection: FOCUS: Metal and Metal-Containing Clusters
Research Article

Anchoring stable FeS2 nanoparticles on MXene nanosheets via interface engineering for efficient water splitting

Benefiting from an abundant interface with many active sites, robust interaction and synergistic effect between FeS2 and MXene, FeS2@MXene exhibits remarkable catalytic activity towards water splitting in alkaline electrolytes.

Graphical abstract: Anchoring stable FeS2 nanoparticles on MXene nanosheets via interface engineering for efficient water splitting
Research Article

Low-cost and multi-level structured NiFeMn alloy@NiFeMn oxyhydroxide electrocatalysts for highly efficient overall water splitting

NiFeMn alloy@NiFeMn oxyhydroxide was fabricated by electrodeposition, which reveals exceptional electrocatalytic property toward overall water splitting owing to the extraordinary multi-level structure.

Graphical abstract: Low-cost and multi-level structured NiFeMn alloy@NiFeMn oxyhydroxide electrocatalysts for highly efficient overall water splitting
From the themed collection: FOCUS: Electrocatalytic Hydrogen Evolution
Research Article

Copper catalysts for photo- and electro-catalytic hydrogen production

Square planar 1, square pyramidal 2 and trigonal bipyramidal 3 copper complexes are poor catalysts for hydrogen evolution (HER) under photocatalytic conditions, whereas 1 is, or forms, a good and enduring electrocatalyst for HER, but 2 and 3 do not.

Graphical abstract: Copper catalysts for photo- and electro-catalytic hydrogen production
From the themed collection: FOCUS: Electrocatalytic Hydrogen Evolution
12 items

About this collection

Inorganic Chemistry Frontiers is delighted to introduce you the following collection of articles on “Electrocatalytic Hydrogen Evolution”. Articles featured in our focus collections are handpicked by Editors. We hope you find them enjoyable to read.

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