Solar‐driven photoelectrochemical (PEC) hydrogen evolution is a promising and
sustainable approach to convert solar energy into a fuel that can be stored. Semiconductor …

Colloidal quantum dots (QDs) have been widely studied as absorbers for various solar
technologies because of their excellent optoelectronic properties, such as a size-dependent …

Luminescent solar concentrators (LSCs) are considered a promising technology to reduce
the cost of electricity by decreasing the use of expensive photovoltaic materials, such as …

A new hybrid photoelectrochemical photoanode is developed to generate H 2 from water.
The anode is composed of a TiO 2 mesoporous frame functionalized by colloidal core …

Quantum dot (QD) solids represent a new type of condensed matter drawing high
fundamental and applied interest. Quantum confinement in individual QDs, combined with …

The interfacial structure in “giant” PbS/CdS quantum dots (QDs) was engineered by
modulating the Cd: S molar ratio during in situ growth. The control of the gradient interfacial …

This work reports a PbS-quantum-dot-sensitized solar cell (QDSC) with power conversion
efficiency (PCE) of 4%. PbS quantum dots (QDs) were grown on mesoporous TiO2 film …

Photoelectrochemical (PEC) solar‐driven hydrogen production is a promising route to
convert solar energy into chemical energy using semiconductors as active materials …

One way to revolutionize solar energy production and expand it to a large scale is to reduce
the manufacturing cost and complexity of the fabrication process. The ability to make solar …

Metal chalcogenide quantum dots (QDs) are among the most promising materials as light
harvesters in all‐inorganic systems for applications in solar cells and production of solar …