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

Reliable and efficient continuous-wave (CW) lasers have been intensively pursued in the
field of optoelectronic integrated circuits. Metal perovskites have emerged as promising gain …

The family of hybrid organic–inorganic lead-halide perovskites are the subject of intense
interest for optoelectronic applications, from light-emitting diodes to photovoltaics to X-ray …

Triplet energy transfer from colloidal nanocrystals is a novel approach to sensitizing
molecular triplets that are important for many applications. Recent studies suggest that this …

Colloidal semiconductor nanocrystals have recently emerged as a novel class of
photosensitizers for molecular spin-triplet states. This sensitization strategy combines the …

Metal halide perovskites show significant promise for light-emitting diodes (LEDs) because
of superior optoelectronic properties, such as direct band gap, excellent mobilities, and high …

Quantum tunneling, a phenomenon that allows particles to pass through potential barriers,
can play a critical role in energy transfer processes. Here, we demonstrate that the proper …

Ultralong room-temperature phosphorescence (RTP) materials showing persistent
luminescence have attracted much attention in the fields of information encryption, light …

Layered lead-halide perovskites have shown tremendous success as an active material for
optoelectronics. This is attributed to the electronic structure of the inorganic sublattice and …

Movement of energy within light-harvesting assemblies is typically carried out with
separately synthesized donor and acceptor species, which are then brought together to …