Green hydrogen energy has captivated researchers and is regarded as a feasible option for
future energy-related aspirations. The emerging awareness of renewable energy-driven …

Water electrolysis has emerged as a promising method for efficiently producing hydrogen
(H2) and oxygen (O2), crucial for renewable energy conversion and fuel cell technologies …

The hydrogen evolution reaction (HER), a crucial half-reaction in the water-splitting process,
is hindered by slow kinetics, necessitating efficient electrocatalysts to lower overpotential …

Hydrazine is a promising energy carrier of high power density, high theoretical cell voltage,
and zero carbon emission to replace fossil fuel-dominated energy sources. Herein, we …

The rapid development of superior, highly stable, alkaline-medium-compatible, and
nonprecious earth-abundant bifunctional electrocatalysts has garnered significant research …

The need of sustainable energy sources drives the development of efficient hydrogen
evolution reaction (HER) catalysts, inspiring innovative approaches to boost catalytic …

Large-scale hydrogen (H2) production is an essential gear in the future bioeconomy.
Hydrogen production through electrocatalytic seawater splitting is a crucial technique and …

Copper thiocyanate (CuSCN) is an unexplored material for water-splitting reactions, and it is
a well-known photocathode in dye-sensitized solar cells. For the first time, the …

This study explores a water‐splitting activity using a biphasic electrodeposited electrode on
nickel foam (NF). The* Ni9S8/Cu7S4/NF electrode with citric acid reduction exhibits superior …

Metal-organic frameworks (MOFs) are considered potential electrocatalysts due to their high
specific surface area (SSA) and the facilitation of efficient synergistic interactions. In this …