The functions of interfacial synergy in heterojunction catalysts are diverse and powerful,
providing a route to solve many difficulties in energy conversion and organic synthesis …

Abstract 2D materials show many particular properties, such as high surface‐to‐volume
ratio, high anisotropic degree, and adjustable chemical functionality. These unique …

Constructing an efficient alkaline hydrogen evolution reaction (HER) catalyst with low
platinum (Pt) consumption is crucial for the cost reduction of energy devices, such as …

Transition metal oxide electrocatalysts have received significant research interest toward the
advancement of environmentally acceptable electrochemical applications and systems …

The energy efficiency of metal–air batteries and water‐splitting techniques is severely
constrained by multiple electronic transfers in the heterogenous oxygen evolution reaction …

Electrocatalytic synergy is a functional yet underrated concept in electrocatalysis. Often, it
materializes as intermetallic interaction between different metals. We demonstrate …

Upgrading single S-scheme heterojunctions to multi-S-scheme ones through implanting
another component provides a promising means of simultaneously optimizing the charge …

The solar‐energy‐driven photoreduction of CO2 has recently emerged as a promising
approach to directly transform CO2 into valuable energy sources under mild conditions. As a …

The inorganic–organic S-scheme heterojunction photocatalyst demonstrates exceptional
light absorption capacity, high photogenerated charge separation efficiency, and remarkable …

To support the global goal of carbon neutrality, numerous efforts have been devoted to the
advancement of electrochemical energy conversion (EEC) and electrochemical energy …