Abstract Closing the carbon‐, hydrogen‐, and nitrogen cycle with renewable electricity holds
promises for the mitigation of the facing environment and energy crisis, along with the …

Develo** new methodologies to produce clean and renewable energy resources is
pivotal for carbon‐neutral initiatives. Hydrogen (H2) is considered as an ideal energy …

Active electronic states in transition metal dichalcogenides are able to prompt hydrogen
evolution by improving hydrogen absorption. However, the development of …

The problem of global water pollution and scarcity of water resources is becoming
increasingly serious. Multifunctional perovskites can well drive adsorption and photocatalytic …

Alkaline water electrolysis is commercially desirable to realize large‐scale hydrogen
production. Although nonprecious catalysts exhibit high electrocatalytic activity at low current …

Electrochemical water splitting, as a promising energy conversion technology, is entirely
limited by the slow reaction kinetics due to the large overpotentials for oxygen evolution …

Unraveling the essence of hydrogen adsorption and desorption behaviors can
fundamentally guide catalyst design and promote catalytic performance. Herein, the …

Constructing composite structures is an essential approach for obtaining multiple
functionalities in a single entity. Available synthesis methods of the composites need to be …

Atomic coordination modulation and electronic structure engineering are appealing routes to
develop versatile electrocatalysts targeting high-performance water electrolysis. Herein …

Electrocatalysis plays a pivotal role in driving the progress of modern technologies and
industrial processes such as energy conversion and emission reduction. Perovskite oxides …