The rational interface tailoring of nanosheets on hollow spheres is a promising strategy to
develop efficient photocatalysts for hydrogen production with solar energy. Among the …

Semiconductor photocatalysis is a new sustainable development technology that has
demonstrated remarkable potential in the fields of energy-production and environmental …

Chalcogenides are narrow-band gap semiconductors that have been widely used as
photocatalysts. These narrow-band gap materials allow more efficient absorption of over …

To solve the problem of energy shortage and environmental pollution, the construction of
properly designed photocatalysts is a promising method. Here, UiO-66-(COOH) 2/ZnIn 2 S 4 …

Crystal phase and vacancies play an important role in regulating photocatalytic activity. In
this work, sulfur vacancy-enriched rhombohedral ZnIn2S4 was obtained by calcining …

Molybdenum disulphide (MoS 2) is a transition metal dichalcogenide most widely studied as
a heterogeneous catalyst due to its outstanding structural and physicochemical properties …

It remains a great challenge to design and prepare highly efficient semiconductor-based
photocatalysts for water splitting. To achieve this goal, the design of oriented heterojunctions …

Broadening the range of light absorption and inhibiting charge carrier's recombination are
vital to improving photocatalytic activity. In this study, a novel full spectrum light-driven …

Due to the suitable bandgap, unique electronic state, adjustable atomic structure and
outstanding optoelectronic properties, In-based materials exhibits intriguing photocatalytic …

One of the most significant boosts for reducing energy consumption and environmental
pollution is expected to be the photocatalytic splitting of water, which is a cost-effective and …