Cadmium sulfide (CdS) has been currently emerged as a promising class of photocatalyst
candidates toward hydrogen evolution from water photosplitting because of its unique …

Abstract Design and development of inexpensive novel nanostructures is a notable pathway
to enhance photocatalytic hydrogen evolution to subsidize the future energy demand. For …

Robust and highly active photocatalysts, CdS@ MoS2, for hydrogen evolution were
successfully fabricated by one-step growth of oxygen-incorporated defect-rich MoS2 …

Developing highly efficient and low-cost noble-metal-free cocatalysts is significant for visible-
light photocatalytic water splitting. Herein, 2H phase MoSe 2 nanosheets were successfully …

Photocatalytic hydrogen production by means of water splitting has attracted significant
attention to convert solar energy into chemical energy. In this present study, a facile one …

Combining photoharvesting semiconductors with MoS2 co-catalysts is an intriguing
approach to develop inexpensive and efficient photocatalysts for visible-light-driven …

This study demonstrates a high-performance visible-light-driven photocatalyst for water
splitting H 2 production. CdS nanorods (30 nm in diameters) with shorter radial transfer …

Development of noble metal free, novel and highly efficient co-catalysts that favor high
performance is of great significance towards elevated photocatalytic hydrogen production …

Designing and fabricating highly efficient photocatalysts for water splitting is a promising
strategy to address energy and environmental issues. Cadmium sulfide (CdS) has received …

Highly efficient, visible-light-induced hydrogen (H2) production via water splitting can be
achieved without the help of a cocatalyst by using a noble-metal-free core–shell …