In addressing the challenging quest for an efficient electrocatalyst in electrochemical water
splitting, we demonstrate an Fe-doped NiO nanosheet array anchored on nickel foam …

Abstract Development of Nano-heterostructures based on transition metal chalcogenides is
promising strategy to accelerate the catalytic performance for hydrogen evolution reaction …

Seawater electrolysis (SWE) is proposed to be a promising approach to green hydrogen
(H2) production but its large‐scale deployment faces challenges because of the anodic …

Electrochemical water splitting stands out as a highly effective and environment‐friendly
strategy for generating pure hydrogen. However, the expensive catalyst required, and the …

In this study, we present self-supported vanadium-doped copper sulfide (Cu 2 S) electrodes
as effective catalytic network for alkaline water electrolysis. The electrodes demonstrate a …

The escalating demand for green hydrogen (H 2) as a sustainable energy carrier has
attracted intensive research into efficient water electrolysis methods. Promising candidates …

Two-dimensional MXene is demonstrating promising efficiency for the generation of oxygen
(O 2) and hydrogen (H 2). For cost-effective water-splitting electrolysis that performs well in …

To improve the electrochemical activity and electrochemical energy storage performance of
the catalyst, one of the best approaches is to adjust materials structure reasonably and …

Abstract Cu 2 S/Ni 3 S 2@ NF catalyst was prepared by hydrothermal method, and the
catalytic ozonation of PNP solution (100 mg/L) was carried out. The removal rate of PNP …

In the context of diminishing energy resources and worsening greenhouse effect,
thermoelectric materials have great potential for sustainable development due to their green …