Harnessing solar energy to produce hydrogen from water – the photocatalytic water splitting reaction, is a promising approach for the carbon-neutrality future. This process utilizes ...

Hydrogen production via photocatalytic water splitting is a sustainable solution for next-generation energy by utilizing light energy at room temperature. However, the design of innovative ...

A new study has revealed key factors limiting the efficiency of photoelectrochemical water splitting using a titanium dioxide photoanode for clean hydrogen production. Researchers combined ...

Sparc Hydrogen believes photocatalytic water splitting can deliver cost and flexibility advantages over electrolysis because of its lowered infrastructure and electricity requirements. The company ...

Sparc Technologies Limited is pleased to announce that construction of Sparc Hydrogen’s first-of-its kind photocatalytic water splitting (PWS) pilot plant has commenced.

One way to produce hydrogen sustainably is through photoelectrochemical (PEC) water splitting, where a photoanode such as titanium dioxide (TiO₂) absorbs sunlight and facilitates oxygen ...

A recent study published in Nature Communications examined how charge utilization in ferroelectric materials influences photocatalytic water splitting. Researchers focused on enhancing solar ...

Our research in alternative fuels centers on the design of new metal ligands for the photocatalytic splitting of water for hydrogen production. We focus on the use of rhenium metal and pyridine based ...

promoting commercialisation of photocatalytic technology. A team from RMIT University in Australia, working with worldwide collaborators, has pioneered a new field of manipulating polar materials as ...