The field of colloidal synthesis of semiconductors emerged 40 years ago and has reached a
certain level of maturity thanks to the use of nanocrystals as phosphors in commercial …

Compared with zero‐dimensional quantum dots and one‐dimensional nanorods, two‐
dimensional nanoplatelets exhibit many unique optical properties. Due to strong quantum …

The last decade has witnessed extensive breakthroughs and significant progress in
atomically flat two-dimensional (2D) semiconductor nanoplatelets (NPLs) in terms of …

Colloidal quantum wells (CQWs) are regarded as a highly promising class of optoelectronic
materials, thanks to their unique excitonic characteristics of high extinction coefficients and …

As an attractive materials system for high-performance optoelectronics, colloidal
nanoplatelets (NPLs) benefit from atomic-level precision in thickness, minimizing emission …

Semiconductor nanoplatelets (NPLs) have emerged as a very promising class of colloidal
nanocrystals for light-emitting devices owing to their quantum-well-like electronic and optical …

A critical point for the successful development of a fluorescent quantum dot (QD)-based
immunoassay is maintaining the high fluorescence quantum yield of QDs during …

Semiconductor two-dimensional (2D) nanoplatelets (NPLs) possess narrow emission
bandwidths, large absorption cross sections, and low auger recombination rates, which are …

Colloidal semiconductor nanocrystals hold great promise in display technologies, as the
tunable energy levels and narrow emission bandwidth allow for wide gamut in color space …

In recent years, demand for scintillation detectors with high time resolution (better than 100
ps) has emerged in high-energy physics and medical imaging applications. In particular …