Global environmental issues, in addition to limited fossil fuel resources, are being addressed
by quests in search of efficient visible-light-driven water splitting catalysts for hydrogen …

In this work, we employ hybrid density functional theory calculations to design a two-
dimensional layered CdS/C2N heterostructure for visible light photocatalytic water splitting …

Photocatalytic water splitting technology, utilizing solar energy, water resources and suitable
photocatalysts to produce hydrogen, holds great promise to deal with the current energy …

Exploiting earth-abundant and low-cost photocatalysts for high efficiency photocatalytic
water splitting is of profound significance. Herein, we report an improved photocatalytic …

A desired water splitting photocatalyst should not only possess a suitable bandgap and
band edge position, but also host the spontaneous progress for overall water splitting …

Abstract Two‐dimensional (2D) semiconductors have shown great promise as efficient
photocatalysts for water splitting. Tailoring the band gap and band edge positions are the …

The type-II van der Waals heterostructure photocatalytic system is an ideal band alignment
structure for photocatalysis, which the high separation efficiency of photo-induced carriers …

Producing hydrogen through photocatalytic water splitting is a feasible and efficient route for
resolving the problems associated with energy and the environment, and great efforts have …

Abstract 1D/2D CdS/WS 2 heterojunctions have been considered to be efficient
photocatalysts for visible-light driven hydrolysis; however, the catalytic mechanisms …

Photocatalytic water splitting is a promising method for the production of clean energy and
searching for efficient photocatalysts has received extensive attention. Fabricating type-II …