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 …

Lasers and optical amplifiers based on solution-processable materials have been long-
desired devices for their compatibility with virtually any substrate, scalability, and ease of …

The properties of colloidal quantum-confined semiconductor nanocrystals (NCs), including
zero-dimensional (0D) quantum dots, 1D nanorods, 2D nanoplatelets, and their …

Current colloidal synthesis methods for CdSe nanoplatelets (NPLs) routinely yield samples
that emit, in discrete steps, from 460 to 550 nm. A significant challenge lies with obtaining …

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 …

Semiconductor nanoplatelets (NPLs), with their large exciton binding energy, narrow
photoluminescence (PL), and absence of dielectric screening for photons emitted normal to …

Abstract 2D materials are considered for applications that require strong light-matter
interaction because of the apparently giant oscillator strength of the exciton transitions in the …

Colloidal semiconductor nanoplatelets exhibit strong quantum confinement for electrons and
holes as well as excitons in one dimension, while their in-plane motion is free. Because of …

Hybrid perovskites have emerged as a promising material candidate for exciton-polariton
(polariton) optoelectronics. Thermodynamically, low-threshold Bose-Einstein condensation …