The oxygen evolution reaction (OER) and oxygen reduction reaction (ORR) are core steps of
various energy conversion and storage systems. However, their sluggish reaction kinetics …

Structures and processes at water/metal interfaces play an important technological role in
electrochemical energy conversion and storage, photoconversion, sensors, and corrosion …

Triboelectric probes have rapidly developed as an efficient tool for understanding contact
electrification at liquid–solid interfaces. However, the liquid–solid electrification process is …

Fundamental understanding of the dynamic behaviors at the electrochemical interface is
crucial for electrocatalyst design and optimization. Here, we revisit the oxygen reduction …

For oxygen reduction reaction (ORR) consisting of complex multi-electron and proton-
coupled elementary steps, it has been always a core issue to address controlling the …

In the realm of photocatalysis, understanding the interface issues (solid/solid and
solid/liquid) inherent in heterojunction at the atomic level is the ultimate for engineering an …

Zinc-air batteries (ZABs) hold immense promise for energy storage due to their potential
advantages over existing technologies in terms of electrochemical performance, cost, and …

It is highly desirable to make full use of photogenerated charge carriers by elaborately
designing high-efficiency multifunctional photocatalysts with achieving bi-value-added …

Electrochemical reduction of CO (2) to value-added chemicals and fuels is a promising
strategy to sustain pressing renewable energy demands and to address climate change …

Unraveling the atomistic structures of electric double layers (EDL) at electrified interfaces is
of paramount importance for understanding the mechanisms of electrocatalytic reactions …