Solar energy is an ample renewable energy resource, with photovoltaic (PV) technology
enabling a direct route from light to electricity. Currently, PVs are limited in photon …

Energy and electron transfer processes in light harvesting assemblies dictate the outcome of
the overall light energy conversion process. Halide perovskite nanocrystals such as …

Triplet states have been widely studied in phosphorescent molecules, lanthanide complexes
and triplet–triplet annihilation systems, in which they have a critical role in energy transfer …

Low-dimensional semiconductors provide a marvelous platform for pursuing versatile
photocatalytic solar energy conversion. Compared with the bulk counterparts, low …

Organic semiconductor materials have been widely used in various optoelectronic devices
due to their rich optical and/or electrical properties, which are highly related to their excited …

Mass transfer is an essential factor determining photocatalytic performance, which can be
modulated by fluid field via manipulating the kinetic characteristics of photocatalysts and …

Directing the flow of energy and the nature of the excited states that are produced in
nanocrystal–chromophore hybrid assemblies is crucial for realizing their photocatalytic and …

Excitonic processes open up the possibility for pursuing oxygen activation and reduction in
photocatalytic H 2 O 2 production. However, the mechanistic investigation in excitonic effect …

Coordination chemistry has been widely studied in lanthanide complexes, where organic
ligands are used to chelate individual lanthanide ions, and the complexes are broadly used …

A relatively new addition to the application portfolio of lead halide perovskites is to
photosensitize molecular triplets for a variety of photochemical applications. Here we report …