Generating durable nano-catalysts for water splitting from specially-designed metal-organic frameworks could facilitate efficient solar power storage solutions ...

The effective deposition of finely dispersed cobalt oxide (CoOx) nanoparticles within the mesoporous framework of the WO₃-F127 electrode is illustrated in this figure. The incorporation of CoOx takes ...

Green hydrogen has long been billed as a clean fuel for heavy industry, shipping, and long-duration storage, but its price ...

Researchers at Chalmers University of Technology have unveiled a clever new approach to photocatalytic hydrogen production ...

In the future, we could fuel the world with sunlight and water – using sunlight to derive hydrogen fuel from H2O. Currently, most hydrogen that’s used as feedstock and fuel is derived from natural gas ...

The material can effectively capture sunlight, using the solar energy for hydrogen production through the photochemical water splitting reaction. Image Credit: Olov Planthaber The material works by ...

The study unveils a pioneering approach to harnessing sunlight for efficient and stable hydrogen production using cost-effective organic materials, potentially transforming the way we generate and ...

Water splitting is one of the critical reactions that sustain life on earth, and could be a key to the creation of future fuels. It is a key in the process of photosynthesis, through which plants ...