The photoelectrochemical (PEC) water splitting efficiency is profoundly restricted by the
limited light harvesting, rapid charge recombination, and sluggish water oxidation kinetics, in …

Although graphitic carbon nitride (g-C3N4) has been reported for several decades, it is still
an active material at the present time owing to its amazing properties exhibited in many …

Considering the intermittent solar energy availability, storing excess photon energy for
subsequent use in dark represents a decoupled solar energy utilization strategy, resembling …

Energy band alignment theory has been widely used to understand interface charge transfer
in semiconductor/semiconductor heterojunctions for solar conversion or storage, such as …

Dye-sensitized photoelectrochemical (DSPEC) water splitting is an attractive approach to
convert and store solar energy into chemical bonds. However, the solar conversion …

Solar energy is set to play a major role in decarbonising the economy and creating a zero-
emissions future. However, there is a need to store this abundant energy and, in many …

Two‐electrode solar rechargeable devices trigger intense attention due to their potential
applications in solar energy conversion and storage. However, interface energy barriers …

In the past decades, a band alignment theory has become a basis for designing different
high-performance semiconductor devices, such as photocatalysis, photoelectrocatalysis …

An intrinsic Faradaic layer on the surface of a metal electrocatalyst is usually considered an
active site for CO2 reduction. Different strategies have been used to improve the …

Two-electrode solar rechargeable device is one of the promising technologies to address
the problem of solar energy storage in large scale. However, the mechanism of dark output …