Dye-sensitized solar cells (DSCs) are celebrating their 30th birthday and they are attracting
a wealth of research efforts aimed at unleashing their full potential. In recent years, DSCs …

The sharp increase of research passion in the new-generation solar cells in recent years
has resulted in a new trend in combining multiple types of energy devices in a single device …

Because of its unmatched resource potential, solar energy utilization currently is one of the
hottest research areas. Much effort has been devoted to develo** advanced materials for …

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

In this review we discuss at the mechanistic level the different steps involved in water
oxidation catalysis with ruthenium-based molecular catalysts. We have chosen to focus on …

The development of metal complexes for optoelectronic applications is a fertile area of
research. In contrast to the rigorous development of mononuclear metal complexes …

To advance the progress of photoelectrolysis, various promising devices integrated with p-
and n-type photocatalysts and dye sensitized photoelectrodes have been systematically …

Research in artificial photosynthesis is driven by the goal of creating low-cost, integrated
systems for the direct conversion of solar energy to high energy density fuels. Water-splitting …

Strong interest exists in the development of organic–inorganic lead halide perovskite
photovoltaics and of photoelectrochemical (PEC) tandem absorber systems for solar fuel …

Rapid urbanization and growing population have led to an increase in the consumption of
resources, resulting in water pollution and energy shortage, calling for advanced solutions …