Photoelectrochemical (PEC) water splitting represents an environmentally friendly and
sustainable method to obtain hydrogen fuel. Semiconductor materials as the central …

This work is a review of the recent trends in the photoelectrocatalytic conversion of solar
energy into electricity or hydrogen. It focuses on photocatalytic fuel cells and …

Photocatalytic oxidation has been widely investigated and applied to perform degradation of
organic pollutants in water and air. In recent technological advancement, photocatalysis …

Key parameters for efficient and stable photoelectrochemical (PEC) water splitting include
light absorption, charge transport, surface reaction (charge transfer), and photocorrosion …

The conversion of solar energy into renewable H2 fuel via photoelectrochemical and
photocatalytic water splitting approaches has attracted considerable attention due to its …

Photocatalytic hydrogen production from water splitting is of promising potential to resolve
the energy shortage and environmental concerns. During the past decade, carbon materials …

The phase-pure multiple ternary or quaternary metal selenides in energy boosting, have not
been reported yet. Here, self-supported porous crystalline Zn–Ni–Co/Cu selenides …

Water splitting technology directly stores solar energy into the chemical bonds of diatomic
hydrogen to be used as a clean fuel without producing any unwanted side reactions …

The development of renewable and sustainable energy sources along with efficient storing
strategies has been the focus of utmost importance within the community to address the …

Systematical design and controllable assembly of nanostructured photocatalysts have
received much attention in the field of CO 2 reduction. The Cu 2 O decroted hexagonal WO 3 …