Over the past few decades, development of electrocatalysts for energy applications has
extensively transitioned from trial-and-error methodologies to more rational and directed …

Electrolysis of water to produce hydrogen and oxygen is a promising pathway for the storage
of renewable energy in form of chemical fuels. The efficiency of the overall process is usually …

As star material, perovskites have been widely used in the fields of optics, photovoltaics,
electronics, magnetics, catalysis, sensing, etc. However, some inherent shortcomings, such …

The development of inexpensive and efficient electrocatalysts is key to commercializing
energy-related electrocatalytic techniques such as water electrolyzers and metal-air …

Perovskite oxides are studied as electrocatalysts for oxygen evolution reactions (OER)
because of their low cost, tunable structure, high stability, and good catalytic activity …

The oxygen evolution reaction (OER) is a crucial process in electrochemical water splitting,
a promising technology to renewably yield hydrogen gas from water. Designing and …

Highly active and durable electrocatalysts for the oxygen evolution reaction (OER) is greatly
desired. Iridium oxide/graphitic carbon nitride (IrO2/GCN) heterostructures are designed with …

Develo** electrochemical energy storage and conversion devices (eg, water splitting,
regenerative fuel cells and rechargeable metal-air batteries) driven by intermittent …

Perovskite materials have garnered significant attention over the past decades due to their
applications, not only in electronic materials, such as dielectrics, piezoelectrics …

The development of reliable water oxidation catalysts (WOCs) is essential for implementing
artificial photosynthesis on a large technological scale. WOC research has evolved into two …