The deployment of hydrogen as an energy carrier is found to be a vital alternative fuel for the
future. It is expected that water electrolysis, powered by renewable energy sources, be able …

Interface engineering of heterostructures has proven a promising strategy to effectively
modulate their physicochemical properties and further improve the electrochemical …

Interfacial engineering is an effective strategy for the design of active oxygen evolution
electrode. Yet the intrinsic mechanism of heterogeneous interfaces remains largely unclear …

Electrocatalysis is recognized as a practical process for chemical energy conversion, which
has attracted considerable research efforts in the design and development of high …

Interface engineering has been recognized as a highly effective strategy for improving the
intrinsic activity of catalysts for oxygen evolution reaction (OER), wherein the rational …

Precise control of the local electronic structure and properties of electrocatalysts is important
for enhancing the multifunctionality and durability of electrocatalysts and for correlating the …

Bimetallic layered double hydroxides (LDHs) are promising catalysts for anodic oxygen
evolution reaction (OER) in alkaline media. Despite good stability, NiCo LDH displays an …

Layered double hydroxides (LDHs) are promising battery-type electrode materials for hybrid
supercapacitors. However, their poor capacity in neutral electrolyte is the primary limitation …

Interface engineering is a powerful strategy for modulating electronic structure and
enhancing intrinsic activity of electrocatalysts for water splitting. Here, we grow two …

The controllable adjustment of layered double hydroxide layer spacing makes it possible as
electrode material for energy storage and electrochemical hydrogen evolution at the same …