Given the abundant reserves of seawater and the scarcity of freshwater, real seawater
electrolysis is a more economically appealing technology for hydrogen production relative to …

Seawater is the most abundant natural water resource in the world, which is an
inexhaustible and low‐cost feedstock for hydrogen production by alkaline water electrolysis …

Developing high‐performance and cost‐effective bifunctional electrocatalysts for large‐
scale water electrolysis is desirable but remains a significant challenge. Most existing nano …

The limited availability of freshwater in renewable energy-rich areas has led to the
exploration of seawater electrolysis for green hydrogen production. However, the complex …

Hydrogen, the most prominent green energy source, is considered as the next-generation
fuel that can replace the current nonrenewable energy sources to realize a sustainable …

Directly splitting seawater to produce hydrogen provides a promising pathway for energy
and environmental sustainability. However, current seawater splitting faces many …

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 …

Alkaline water electrolysis is a commercially viable technology for green H2 production
using renewable electricity from intermittent solar or wind energy, but very few non‐noble …

Electrodes capable of electrocatalytically splitting seawater sustainably (≥ 500 h) at
industrially acceptable current density (≥ 400 mA/cm2 at an overpotential of≤ 0.6 V) and …

As one of the most abundant resources on the Earth, seawater is not only a promising
electrolyte for industrial hydrogen production through electrolysis, but also of great …