Replacing fossil fuels with energy sources and carriers that are sustainable, environmentally
benign, and affordable is amongst the most pressing challenges for future socio-economic …

The low efficiency of the electrocatalytic oxidation of water to O2 (oxygen evolution reaction‐
OER) is considered as one of the major roadblocks for the storage of electricity from …

Designing catalytic materials with enhanced stability and activity is crucial for sustainable
electrochemical energy technologies. RuO2 is the most active material for oxygen evolution …

As the most well-known electrocatalyst for cathodic hydrogen evolution in water splitting
electrolyzers, platinum is unfortunately inefficient for anodic oxygen evolution due to its over …

As the most desirable hydrogen production device, the highly efficient acidic proton
exchange membrane water electrolyzers (PEMWE) are severely limited by the sluggish …

A heterogeneous catalyst is a functional material that continually creates active sites with its
reactants under reaction conditions. These sites change the rates of chemical reactions of …

This Review addresses the technical challenges, scientific basis, recent progress, and
outlook with respect to the stability and degradation of catalysts for the oxygen evolution …

The electrocatalytic oxygen evolution reaction (OER) supplies the protons and electrons
needed to transform renewable electricity into chemicals and fuels. However, the OER is …

Carbon capture and concentration of low partial pressure CO2 in air and flue gas is a key
step in carbon abatement strategies. Traditional CO2 capture methods employ temperature …

Acidic water electrolysis (AWE) has the potential to revolutionize green H2 generation with
flexible partial load range, high gas purity, and rapid system response. However, the …