Photoelectrochemical (PEC) water splitting into hydrogen and oxygen is a promising
solution for the conversion and storage of solar energy. Because sluggish water oxidation is …

Metal sulfides have emerged as promising materials for photoelectrochemical (PEC)
applications due to their favorable light absorption ability, tunable structural and optical …

Although Cu 2 O-based material is one of the most promising catalysts, the deactivation of
surface severely limits its selectivity and stablity. Here, we present a chlorine (Cl)-modified …

Novel energy material is the investigation focus to overcome the environment pollution and
resource shortage crisis. TiO 2 nanotube arrays (TiO 2 NTA) could be used for pollutant …

Spontaneously solar‐driven water splitting to produce H2 and O2, that is, the conversion of
solar energy to chemical energy is a dream of mankind. However, it is difficult to make …

Designing direct Z-scheme photocatalytic systems with core-shell architecture is crucial for
effective charge separation towards sustainable photocatalysis. Herein, the core-shell …

The design and synthesis of robust and efficient photocatalysts for water splitting to generate
hydrogen is deemed to be a promising approach for sustainable energy sources. In this …

Photoelectron transfer between heterojuctions is an important process for photocatalysis,
and identification of the electron transfer process provides valuable information for catalyst …

Extended light absorption and dynamic charge separation are vital factors that determine the
effectiveness of photocatalysts. In this study, a nonmetallic plasmonic S-scheme …

Phosphides exhibit relatively low overpotential for electrical hydrogen evolution reaction
(HER), thus they have great potential to be used for cocatalyst for photocatalyst. Cu 3 P, as a …