Hydrogen is considered a promising environmentally friendly energy carrier for replacing
traditional fossil fuels. In this context, photoelectrochemical cells effectively convert solar …

Solution processable organic semiconductors are well‐established as high‐performance
materials for inexpensive and scalable solar energy conversion in organic photovoltaic …

Develo** highly efficient catalysts for photocatalytic hydrogen generation from water
splitting is one of the grand challenges in solar energy conversion. Herein, we report the …

The electronic band structure of a semiconductor photocatalyst intrinsically controls its level
of conduction band (CB) and valence band (VB) and, thus, influences its activity for different …

Direct photocatalytic water splitting is an attractive strategy for clean energy production, but
multicomponent nanostructured systems that mimic natural photosynthesis can be difficult to …

Photoelectrochemical (PEC) devices offer a promising platform toward direct solar light
harvesting and chemical storage through artificial photosynthesis. However, most prototypes …

To meet the ever‐increasing requirements for the next generation of sustainable and
versatile energy‐related devices, conjugated polymers, which have potential advantages …

Solar energy conversion and storage by photoelectrochemical water splitting has garnered
significant research attention in recent years. While the majority of water-splitting systems …

The photo (electro) chemical reduction of water and oxygen to produce hydrogen (water‐
splitting) and hydrogen peroxide, respectively, are well developed with inorganic …

Organic semiconductors have been proven to be suitable for efficient photovoltaic
generation during the last decade but have been scarcely assessed as …