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 …

Spinels with the formula of AB2O4 (where A and B are metal ions) and the properties of
magnetism, optics, electricity, and catalysis have taken significant roles in applications of …

Electrocatalytic water splitting is a sustainable way to produce hydrogen energy, but the
oxygen evolution reaction (OER) at the anode has sluggish kinetics and low energy …

To design heterojunction electrocatalysts for water splitting in industrial plants, replacing
RuO 2, IrO 2, and Pt/C remains challenging. We prepared heterostructures of nickel selenide …

Abstract Nickel/Nickel oxide (Ni/NiO) nanosheets heterostructure is a cheap and active
catalyst for hydrogen evolution reaction (HER) in alkaline electrolytes. However, the reason …

Developing cost-effective bifunctional water splitting electrocatalyst is of significant
importance for clean energy applications. Herein, we reported a P-doped Ni-Mo bimetal …

The durability and reactivity of catalysts can be effectively and precisely controlled through
the careful design and engineering of their surface structures and morphologies. Herein, we …

Hierarchical nanostructures with hollow architectures can provide rich active sites, improved
transport of ions, and highly robust structure for electrochemical applications. In this work …

Increasing demand for finding eco-friendly and everlasting energy sources is now totally
depending on fuel cell technology. Though it is an eco-friendly way of producing energy for …

Electrochemical water splitting is a promising method for storing light/electrical energy in the
form of H2 fuel; however, it is limited by the sluggish anodic oxygen evolution reaction …