Recent advances in interface engineering strategy for highly‐efficient electrocatalytic water splitting
The hydrogen energy generated by the electrocatalytic water splitting reaction has been
established as a renewable and clean energy carrier with ultra‐high energy density, which …
established as a renewable and clean energy carrier with ultra‐high energy density, which …
Atom do** engineering of transition metal phosphides for hydrogen evolution reactions
Transition metal phosphides (TMPs) have attracted attention in electrocatalytic hydrogen
production because of their multiple active sites, adjustable structures, complex and variable …
production because of their multiple active sites, adjustable structures, complex and variable …
Multiscale hierarchical structured NiCoP enabling ampere‐level water splitting for multi‐scenarios green energy‐to‐hydrogen systems
Efficient and stable low‐cost catalysts are seriously lacking for industrial water electrolysis at
large‐current‐density. To meet industrial‐scale hydrogen production, fully utilized active …
large‐current‐density. To meet industrial‐scale hydrogen production, fully utilized active …
Interface Engineering of NixSy@MnOxHy Nanorods to Efficiently Enhance Overall-Water-Splitting Activity and Stability
Highlights Three-dimensional (3D) core‐shell heterostructured NixSy@ MnOxHy nanorods
grown on nickel foam (NixSy@ MnOxHy/NF) were successfully fabricated via a simple …
grown on nickel foam (NixSy@ MnOxHy/NF) were successfully fabricated via a simple …
Alternatives to Water Photooxidation for Photoelectrochemical Solar Energy Conversion and Green H2 Production
Photoelectrochemical (PEC) water splitting is considered a promising technology to produce
renewable hydrogen, a clean fuel or energy carrier to replace conventional carbon‐based …
renewable hydrogen, a clean fuel or energy carrier to replace conventional carbon‐based …
Surface reconstruction-derived heterostructures for electrochemical water splitting
Electrocatalytic water splitting for green hydrogen generation is of great significance for
renewable energy conversion and storage. The development of efficient electrocatalysts to …
renewable energy conversion and storage. The development of efficient electrocatalysts to …
Crystalline-amorphous heterostructures with assortative strong-weak adsorption pairs enable extremely high water oxidation capability toward multi-scenario water …
Triphasic Ni2P− Fe2P− CoP heterostructure interfaces for efficient overall water splitting powered by solar energy
In this study, we design a triphasic Ni 2 P− Fe 2 P− CoP heterostructure appearing under the
form of a hierarchical 3D core–shell hybrid (CoP@ Ni 2 P− Fe 2 P) for bifunctionally …
form of a hierarchical 3D core–shell hybrid (CoP@ Ni 2 P− Fe 2 P) for bifunctionally …
Single-atom catalysts: advances and challenges in metal-support interactions for enhanced electrocatalysis
Y Mu, T Wang, J Zhang, C Meng, Y Zhang… - Electrochemical Energy …, 2022 - Springer
Abstract Single-atom catalysts (SACs), which contain a single metal atom supported on a
well-confined substrate, are among the most promising heterogeneous catalysts owing to …
well-confined substrate, are among the most promising heterogeneous catalysts owing to …