Electrons are the workhorses of solar energy conversion. Conversion of the energy of light to
electricity in photovoltaics, or to energy-rich molecules (solar fuel) through photocatalytic …

The subject of this review is the colloidal quantum dot (QD) and specifically the interaction of
the QD with proximate molecules. It covers various functions of these molecules, including (i) …

Layered transition metal dichalcogenides (TMDs) draw much attention as the key
semiconducting material for two-dimensional electrical, optoelectronic, and spintronic …

Luminescent solar concentrators are cost-effective complements to semiconductor
photovoltaics that can boost the output of solar cells and allow for the integration of …

Solar energy conversion, particularly solar-driven chemical fuel formation, has been
intensely studied in the past decades as a potential approach for renewable energy …

Colloidal nanoplatelets (NPLs) have recently emerged as favorable light-emitting materials,
which also show great potential as optical gain media due to their remarkable optical …

Semiconductor–metal nanoheterostructures, such as CdSe/CdS dot-in-rod nanorods with a
Pt tip at one end (or CdSe/CdS-Pt), are promising materials for solar-to-fuel conversion …

Atomic layer deposition (ALD) is widely used for gas-phase deposition of high-quality
dielectric, semiconducting, or metallic films on various substrates. In this contribution we …

Colloidal quantum dots are promising optical and optoelectronic materials for various
applications, whose performance is dominated by their excited-state properties. This article …

Photocatalytic hydrogen production using semiconductor photocatalysts provides a
promising strategy for solving the energy crisis. Metal sulfide photocatalysts have received …