The commercialization of fuel cells, such as proton exchange membrane fuel cells and direct
methanol/formic acid fuel cells, is hampered by their poor stability, high cost, fuel crossover …

Global demand for energy conversion and storage technologies such as fuel cells, water
electrolyzers, batteries, and supercapacitors is increasing, yet their commercial and …

Electrochemical water splitting has been widely recognized as efficient technology to
produce high‐purity hydrogen as environmental‐friendly fuels. The main challenge of …

Iron corrosion causes a great damage to the economy due to the function attenuation of iron‐
based devices. However, the corrosion products can be used as active materials for some …

Exploiting high-efficient oxide-based electrocatalysts to accelerate water dissociation
kinetics in hydrogen evolution reaction (HER) is crucial for alkaline water electrolysis …

The development of highly efficient and robust electrocatalysts plays a crucial role in the
success of sustainable energy conversion technologies, like electrochemical water splitting …

The oxygen evolution reaction (OER), which is based on the geometric structure and
interfacial site tailoring of catalysts, is a good technique for producing hydrogen via water …

Adsorbed oxygen and lattice oxygen are crucial parameters for catalyst characterization and
catalytic oxidation mechanism. Therefore, rapid discrimination of adsorbed oxygen and …

Water splitting driven by renewable energy sources is considered a sustainable way of
hydrogen production, an ideal fuel to overcome the energy issue and its environmental …

As an energy-sustainable and environmentally friendly technology, electrochemical water
splitting is a highly recognized approach for the production of clean energy and overcoming …