Sunlight-driven water splitting to produce hydrogen fuel has stimulated intensive scientific
interest, as this technology has the potential to revolutionize fossil fuel-based energy …

Hydrogen is an essential energy carrier which will address the challenges posed by the
energy crisis and climate change. Photoelectrochemical water splitting (PEC) is an important …

Photoelectrochemical (PEC) cells for solar‐energy conversion have received immense
interest as a promising technology for renewable hydrogen production. Their similarity to …

Although large research efforts have been devoted to photoelectrochemical (PEC) water
splitting in the past several decades, the lack of efficient, stable and Earth-abundant …

Photoelectrochemical (PEC) water splitting represents a promising route to convert solar
energy into clean hydrogen. Constructing tandem cells has emerged as a feasible approach …

Water photolysis is a fundamental concept in which solar-driven water splitting is utilized to
generate renewable hydrogen fuel using semiconductor-based electrochemical systems …

Artificial photosynthesis can provide a solution to our current energy needs by converting
small molecules such as water or carbon dioxide into useful fuels. This can be accomplished …

Water splitting for hydrogen production by harvesting sunlight is widely accepted as one of
the most promising routes to relieve the energy crisis and environmental issues caused by …

Artificial photosynthesis via solar water splitting provides a promising approach to storing
solar energy in the form of hydrogen on a global scale. However, an efficient and cost …

Conspectus Photoelectrochemical water splitting is a promising avenue for sustainable
production of hydrogen used in the chemical industry and hydrogen fuel cells. The basic …