The modulation of the electronic structure of CdS/a-MoO x nanocomposite during
photocatalytic hydrogen evolution is significant to improve its performance in the solar …

We successfully fabricate a new type of composite photocatalyst through modifying CdS
nanorods using a noble-metal-free co-catalyst NC@ Mo 2 N (molybdenum nitride deposited …

Abstract An efficient MoO 2/CdS photocatalyst has been successfully constructed by a
relatively facile way to construct a specific combination mode through chemical bond, which …

The photocatalytic hydrogen evolution reaction using semiconductor nanostructures has
received considerable attention in tackling energy and pollution problems. Although several …

This work provides a hydrothermal method to synthesize noble-metal-free materials core-
shell CdS@ MnS nanorods as catalysts for photocatalytic hydrogen evolution. To …

Photocatalytic hydrogen production is considered a promising approach to generating clean
sustainable energy. However, the conventional co-catalyst (eg, Pt) used in photocatalytic …

Photocatalytic hydrogen evolution is a promising technology in solving the global energy
and environment issues. Therefore, it is urgent to develop highly efficient, nonprecious metal …

Well-shaped precious metal-free hybrid photocatalysts with low cost and high efficiency of
photocatalytic H2 evolution are of great significance for clean energy. Herein, we report that …

Semiconductor nanophotocatalysts with high performance for hydrogen (H2) generation
require well-designed and optimized interfaces. This work aimed at the rational design and …

As one of the promising artificial photosynthetic systems, photocatalytic hydrogen production
from water splitting by semiconductor photocatalyst has attracted tremendous attention as a …