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 …

H 2 has a sufficiently high energy density and a combustion process that emits no carbon,
therefore being an appealing storable alternative to fossil fuels. With evident advantages of …

Seawater electroreduction is attractive for future H2 production and intermittent energy
storage, which has been hindered by aggressive Mg2+/Ca2+ precipitation at cathodes and …

Green hydrogen production from renewably powered water electrolysis is considered as an
ideal approach to decarbonizing the energy and industry sectors. Given the high-cost supply …

Hydrazine‐assisted water electrolysis provides new opportunities to enable energy‐saving
hydrogen production while solving the issue of hydrazine pollution. Here, the synthesis of …

Neutral oxygen evolution reaction (OER) with unique reactive environments exhibits
extremely slow reaction kinetics, posing significant challenges in the design of catalysts …

The corrosive anions (eg, Cl−) have been recognized as the origins to cause severe
corrosion of anode during seawater electrolysis, while in experiments it is found that natural …

Electrocatalytic high-throughput seawater electrolysis for hydrogen production is a
promising green energy technology that offers possibilities for environmental and energy …

Hydrogen production by seawater electrolysis is significantly hindered by high energy costs
and undesirable detrimental chlorine chemistry in seawater. In this work, energy-saving …

Electrochemical CO2 reduction reaction (CO2RR) in acid can solve alkalinity issues while
highly corrosive and reductive acidic electrolytes usually cause catalyst degradation …