Solar‐driven water electrolysis has been considered to be a promising route to produce
green hydrogen, because the conventional water electrolysis system is not completely …

We provide a comprehensive overview of the recent developments in the field of two-
dimensional (2D) materials for energy conversion and storage applications. The focus of this …

Constructing hetero-structured catalyst is promising but still challenging to achieve overall
water splitting for hydrogen production with high efficiency. Herein, we developed a sulfide …

Supercapacitors are projected as one of the most promising candidates for next-generation
energy storage devices. Herein, we strategically developed a microporous two-dimensional …

There is a persistent need to design efficient and cheap electrode materials for water
electrolysis. Herein, a hierarchical Ni (OH) 2/Fe 3 O 4/graphite felt (GF)(NFGF) …

Coupling electrocatalytic water splitting (EWS) with benzyl alcohol (Ph-CH 2 OH) oxidation
can efficiently suppress the sluggish water oxidation and boost hydrogen production …

Constructing a favorable reaction configuration at the water/catalyst interface is crucial for
high-efficiency semiconductor-based water splitting. For a long time, a hydrophilic surface of …

The progress of inexpensive, high-efficiency, and steady oxygen evolution reaction (OER)
electrocatalysts is of great importance to promoting water splitting for green hydrogen …

The electrochemical CO2 reduction reaction can effectively convert CO2 into promising fuels
and chemicals, which is helpful in establishing a low-carbon emission economy. Compared …

The development of highly active, highly durable, and inexpensive electrode materials for
water electrolysis is essential for future sustainable energy systems. Herein, we demonstrate …