With rapid and continuous consumption of nonrenewable energy, solar energy can be
utilized to meet the energy requirement and mitigate environmental issues in the future. To …

Water oxidation is a key chemical transformation for the conversion of solar energy into
chemical fuels. Our review focuses on recent work on robust earth-abundant heterogeneous …

Develo** low-cost and highly efficient catalysts toward the efficient oxygen evolution
reaction (OER) is highly desirable for photoelectrochemical (PEC) water splitting. Herein, we …

Solar-driven photoelectrochemical water splitting is a promising technique for solar energy
conversion, while its practical application is currently hampered by the sluggish oxygen …

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

Photoelectrochemical (PEC) water splitting has attracted great attention during past decades
thanks to the possibility to reduce the production costs of hydrogen or other solar fuels, by …

Solar powered hydrogen evolution reaction (HER) is one of the key reactions in solar-to-
chemical energy conversion. It is desirable to develop photocathodic materials that exhibit …

Unearthing an ideal model for disclosing the role of defect sites in solar CO2 reduction
remains a great challenge. Here, freestanding gram-scale single-unit-cell o-BiVO4 layers …

The oblique angle configuration has emerged as an invaluable tool for the deposition of
nanostructured thin films. This review develops an up to date description of its principles …

Photocatalytic water splitting using particulate semiconductors is a potentially scalable and
economically feasible technology for converting solar energy into hydrogen,,. Z-scheme …