In recent years, with the global response to the emission reduction pressure caused by
climate change, global awareness of green hydrogen has progressively grown. Electrolysis …

As a promising method for hydrogen (H2) production, seawater electrolysis has gained
increasing attention as seawater is the most abundant water resource on Earth. The …

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 …

Sodium-ion batteries (SIBs) are experiencing a large-scale renaissance to supplement or
replace expensive lithium-ion batteries (LIBs) and low energy density lead-acid batteries in …

Achieving the rapid synthesis of high-performance catalysts is of particular importance for
realizing the industrialization of electrocatalytic water splitting. Herein, through a rapid …

Direct seawater splitting has emerged as a popular and promising research direction for
synthesising clean, green, non-polluting, and sustainable hydrogen energy without …

Currently the catalysis of hydrogen evolution reaction (HER) is mainly focused on the
inherent electrocatalytic activity at relatively lower current densities while scarce at high …

Hydrogen energy is widely acknowledged as a renewable and inexhaustible source of
energy that can help combat the current energy crises and mitigate the environmental …

In this paper, we report an inexpensive one-step synthesis of self-supported 3D nickel-
manganese (NiMn) bimetallic coatings and their application for the hydrogen evolution …

Resourceful and inexpensive seawater direct splitting omits the desalination process and
effectively increases the efficiency of hydrogen energy generation. However, the …