Solar energy is a renewable resource that can supply our energy needs in the long term. A
semiconductor photocatalysis that is capable of utilizing solar energy has appealed to …

As a state-of-the-art resource for in situ hydrogen supply, formic acid has recently attracted
considerable attention due to its advantages of high hydrogen content, low toxicity, and easy …

Rational design hybrid nanostructure photocatalysts with efficient charge separation and
transfer, and good solar light harvesting ability have critical significance for achieving high …

Hexagonal cadmium sulfide (h-CdS) is very prospective in photocatalytic hydrogen
production due to its appropriate band structure, and researchers concern so much on the …

Hydrogen energy is considered an ideal substitute for fossil energy. However, hydrogen
storage is still a bottleneck to the widespread adoption of a hydrogen economy. The …

Photocatalytic dehydrogenation of formic acid is a promising strategy for H2 generation. In
this work, we report the use of crystalline iron phosphide (FeP) nanoparticles as an efficient …

The photocatalytic production of syngas from CO2 and water is an attractive and
straightforward way for both solar energy storage and sustainable development. Here, we …

The mesoporous network of γ-Al 2 O 3 ceramic support was coupled with the two
dimensional (2D) hexagonal CdO nanoplates by ultrasonic assisted method. The fabricated …

Simple and practical noble‐metal‐free catalyzed hydrogen production from sustainable
resources, such as renewable formic acid, is highly desirable. Herein, the development of an …

It has increasingly become clear that economic growth worldwide based on fossil fuel
energy supply cannot be sustained; thus, alternative, renewable energy sources and …