Anisotropic heterostructures of colloidal nanocrystals embed size-, shape-, and composition-
dependent electronic structure within variable three-dimensional morphology, enabling …

The impact of the size effect on the color and photoluminescence (PL) of quantum dots
(QDs) has sparked a revolutionary field of research, culminating in the prestigious Nobel …

The seeded growth method offers an efficient way to design core–shell semiconductor
nanocrystals in the liquid phase. The combination of seed and shell materials offers wide …

InAs colloidal quantum dots (CQDs) have emerged as candidate lead-and mercury-free
solution-processed semiconductors for infrared technology due to their appropriate bulk …

The external quantum efficiency (EQE) in light‐emitting diodes (LEDs) based on isotropic
quantum dots has approached the theoretical limit of close to 20%. Anisotropic nanorods …

We present here the spectroelectrochemical characterization of band edge energetics in
Type I versus quasi-Type II core/shell CdSe@ CdS nanorod (NR) ensembles, tethered via …

Constructing a one-dimensional (1D) core/shell heterostructure is a rational and efficient
way to integrate multiple functional materials into a single device, in which a distinct and …

Here, we demonstrate that monocrystalline (free of stacking faults) wurtzite CdSe
nanocrystals with monodisperse size, shape (dots, rods, or wires), and facet structure are …

Lattice strain plays a vital role in tailoring the optoelectronic performance of colloidal
nanocrystals (NCs) with exotic geometries. Although optical identifications of lattice strain in …

Colloidal nanorod heterostructures consisting of multiple quantum dots within a nanorod (n-
DNRs, where n is the number of quantum dots within a nanorod) are synthesized with …