Researchers in the UNC-Chapel Hill Chemistry Department are using semiconductors to harvest and convert the sun’s energy into high-energy compounds that have the potential to produce environmental .
Green hydrogen can be produced directly in a photoelectrochemical cell, splitting water with solar energy. However, this requires the development of super-efficient photoelectrodes that need to co .
The development and application of solar energy has attained extensive attention along with the aggravating global energy crisis due to its large resource reserves, wide distribution and environme .
Producing low-cost metal-oxide thin films with high electronic quality for solar water splitting is not an easy task. Especially since quality improvements of the upper metal oxide thin films need .