Generating charge carriers with lifetimes long enough to drive catalysis is a critical aspect for
photoelectrochemical and photocatalytic systems, and a key determinant of their efficiency …

Solar-driven water splitting provides a leading approach to store the abundant yet
intermittent solar energy and produce hydrogen as a clean and sustainable energy carrier. A …

To accelerate the deployment of hydrogen produced by renewable solar energy, several
technologies have been competitively developed, including photoelectrochemical (PEC) …

The photoelectrochemical (PEC) cell that collects and stores abundant sunlight to hydrogen
fuel promises a clean and renewable pathway for future energy needs and challenges …

This study used a facile hydrothermal technique to obtain a novel ZnCdS/NiCoP S-scheme
heterojunction for highly photocatalytic H 2 generation, Notably, phosphatization was used …

To address the energy crisis and environmental problems, the applications of solar energy
have received intensive attention. Converting solar energy to hydrogen using a …

Green hydrogen, produced using solar energy, is a promising means of reducing
greenhouse gas emissions. Photoelectrochemical (PEC) water splitting devices can …

In the field of photoelectrochemical water splitting for hydrogen production, dedicated efforts
have recently been made to improve water oxidation at photoanodes, and in particular, to …

Herein, in order to improve the conductivity and slack water oxidation kinetics of the hematite
(α-Fe2O3) photoanode, we propose the Nb-doped and Co (OH) x cocatalyst-deposited α …

As an artificial leaf, a tandem device for zero-bias solar water splitting is a capable solution
for practical hydrogen production. Despite a promise, poor charge transport of BiVO 4 …