Quantum dots (QDs) of metal sulfides were proven to be excellent cocatalysts in visible-light-
driven photocatalytic reactions. Metal organic frameworks (MOFs) possess a 3D porous …

Transition metal sulfides have been emerging as one of the most attractive and prospective
catalysts for the direct conversion of solar energy into chemical fuels. Their intriguing …

The construction of a tightly contacted heterojunction consisting of multi-components is
proven to be one of the effective strategies to promote the photogenerated charges …

Photocatalytic hydrogen (H 2) production based on semiconductors is important to utilize
solar light for clean energy and environment. Herein, we report a visible light responsive …

The synthesis of highly efficient and stable CdS composites without noble metals has
become a hotspot in the photocatalytic field. Although NiS is an ideal candidate, it remains a …

MOF-templated sulfides exhibit abundant active sites and excellent photo/electrocatalytic
activity, while the types of sulfides derived from the single-ligand-MOF are limited due to the …

Developing a new composite photocatalyst is the key to achieving efficient photocatalytic
decomposition of aquatic hydrogen. In this study, Cu-ZnIn 2 S 4/WO 3/WS 2 nanostructures …

The formation of composites by loading co-catalysts on semiconductor photocatalysts to
improve hydrogen (H 2) evolution performance is a feasible strategy. Metallic 1T phase …

Visible-driven photocatalytic hydrogen production using narrow-bandgap semiconductors
has great potential for clean energy development. However, the widespread use of these …

The construction of semiconductor heterojunctions is regarded as an efficient strategy for
promoting photogenerated carrier transfer and enhancing photocatalytic performance.[1] …