A deep understanding of defects is essential for the optimization of materials for solar energy
conversion. This is particularly true for metal oxide photo (electro) catalysts, which typically …

Due to its high energy density and non-polluting combustion, hydrogen has emerged as one
of the most promising candidates for meeting future energy demands and realising a C-free …

Tailoring the oxygen evolution cocatalyst (OEC)/BiVO4 interfaces with a hole transfer layer
(HTL) is expected to suppress the interfacial charge recombination, thus achieving highly …

Bismuth vanadate (BiVO4) has been widely investigated as a photocatalyst or photoanode
for solar water splitting, but its activity is hindered by inefficient cocatalysts and limited …

In recent years, nanocrystals of metal sulfide materials have attracted scientific research
interest for renewable energy applications due to the abundant choice of materials with …

Solar energy is a crucial source that sustains all life and activities on Earth. Photocatalysis
based on solar energy is an exciting technology with great potential for solving complex …

Solar water splitting is a promising approach to transform sunlight into renewable,
sustainable and green hydrogen energy. There are three representative ways of …

Hot, coastal, hyper-arid regions with intense solar irradiation and strong on-and off-shore
wind patterns are ideal locations for the production of renewable electricity using wind …

The Sun is an inexhaustible source of renewable energy, although under-utilized due to its
intermittent nature. Hydrogen fuel is another clean, storable, and renewable energy as it can …

Photoelectrochemical (PEC) water splitting is considered a promising technology to produce
renewable hydrogen, a clean fuel or energy carrier to replace conventional carbon‐based …