Photocatalytic hydrogen evolution (PHE) is a promising route for the energy-renewable and
eco-friendly development of the future society, but the low activity and durability of …

Low charge carrier separation and transfer efficiency continues to be the major obstacle to
harvest solar energy to split hydrogen sulfide (H 2 S) as hydrogen source for H 2 production …

Colloidal quantum dots (QDs) hold great promise as building blocks in solar technologies
owing to their remarkable photostability and adjustable properties through the rationale …

As emerging eco‐friendly alternatives to traditional Cd/Pb‐based quantum dots (QDs),
InP/ZnSe (S) core/shell QDs have demonstrated huge potential in light‐emitting …

Colloidal quantum dots (QDs) are promising photosensitizers for the conversion of solar
energy into electric energy or chemical fuels. Particularly, they are potentially used in …

Photoelectrochemical cells (PECs) based on all-inorganic perovskite quantum dots (QDs)
have great potential for the catalytic splitting of water using sunlight due to their good …

Carbon Quantum dots (CQDs) are widely studied because of their good optical and
electronic characteristics and because they can easily generate photocarriers. Nitrogen …

Broadening light absorption and improving charge carrier separation are very critical to
boost the water splitting efficiency in photoelectrochemical (PEC) systems. We herein …

The rational design of elemental incorporation in colloidal eco-friendly core/shell quantum
dots (QDs) holds the potential to synergistically tailor their electronic band structure and …

The development of semiconductor photocatalysts is of great significance for the realization
of efficient photocatalytic hydrogen evolution (PHE). AgIn5S8, as an emerging ternary metal …