Electrochemical transformation processes involving carbon, hydrogen, oxygen, nitrogen,
and small‐molecule chemistries represent a promising means to store renewable energy …

The oxygen evolution reaction (OER) is a crucial step in the utilization and storage of
sustainable energy. However, due to its multi-step and multi-electron transfer process, the …

Electrochemical water splitting is a promising technique for the production of high‐purity
hydrogen. Substituting the slow anodic oxygen evolution reaction with an oxidation reaction …

The compositing strategy offers great potential in designing bifunctional oxygen
electrocatalysts for Zn–air batteries. Recent reports reveal that the couple of RuO2, serving …

Perovskite oxides are promising electrocatalysts due to their rich composition, facile
synthesis, and favorable stability under oxidizing conditions. Despite extensive research on …

Rational design and modulation of oxygen electrocatalytic microenvironment are crucial for
achieving high performance in rechargeable Zn-air batteries (RZABs). We report a high …

Hydrogen stands out as a highly promising clean fuel for the future, owing to its high energy
density and zero carbon emissions during its utilization. Biomass, as a renewable energy …

Electrochemical water splitting is an ideal alternative to obtain hydrogen, which is a
renewable and clean source of energy with a high calorific value. Designing a highly stable …

Designing bifunctional electrocatalysts to boost oxygen redox reactions is critical for high-
performance lithium–oxygen batteries (LOBs). In this work, high-entropy spinel (Co0. 2Mn0 …

Most electrocatalysts are known to experience structural change during the oxygen
evolution reaction (OER) process. Considerable endeavors have been dedicated thus far to …