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 …

Green hydrogen (H 2) is one of the most promising candidates to combat the global energy
crisis because of its high energy density, sustainability and abundance on earth. Large …

The development of semiconductor photoanodes is of great practical interest for the
realization of photoelectrochemical (PEC) water splitting. Herein, MXene quantum dots …

The built‐in electric field can be generated in the piezoelectric materials under mechanical
stress. The resulting piezoelectric effect is beneficial to charge separation in photocatalysis …

Non-noble-metallic Ni 2 P modified BiOBr with oxygen vacancy (OV) was synthesized by
solvothermal method to construct novel O V-BiOBr/Ni 2 P nanoheterojunction. Compared …

Although great interest is focused on development of semiconductor photoanodes for
efficient photoelectrochemical (PEC) water splitting, the pressing bottleneck to address the …

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

The development of efficient and stable photoanode materials is essential for driving the
possible practical application of photoelectrochemical water splitting. This article begins with …

The use of oxygen evolution co-catalysts (OECs) with hematite photoanodes has received
much attention because of the potential to reduce surface charge recombination. However …

MXene is a popular material in the field of photoelectrochemistry (PEC) due to the
advantages of excellent metal conductivity, abundant surface functional terminals, exposed …