Colloidal quantum dots (QDs) exhibit tremendous potential in display technologies owing to
their unique optical properties, such as size‐tunable emission wavelength, narrow spectral …

Micro-light-emitting diodes (μ-LEDs) are regarded as the cornerstone of next-generation
display technology to meet the personalised demands of advanced applications, such as …

To understand the exciton dynamics due to the electron delocalization in InP‐based
quantum dot light‐emitting diodes (QLEDs), the exciton dynamics are systematically …

Quantum dots (QDs), which have high color purity, are expected to be applied as emitting
materials to wide-color-gamut displays. To enable their use as an alternative to Cd-based …

Here, we report efficient and stable indium phosphide (InP) based inverted red quantum dot
light-emitting diodes (QLEDs) using a new high mobility and deep HOMO level hole …

Microfluidic approaches to nanomaterial synthesis provide an effective means of making
high quality products, with exquisite control over electronic, optical, and structural properties …

Many academics are exploring using quantum dots (QDs) to make better LED devices due
to their narrow emission band, low reaction temperature, low self-absorption effect, and high …

With significant improvements in external quantum efficiency (EQE) and stability for red,
green, and blue devices over the past decade, the future of electroluminescent quantum dot …

Abstract CdSe Quantum dots (QDs) are cytotoxic cadmium and selenide-based (II–VI)
semiconductor nanocrystals with a few nanometer diameters and unique optical and …

Quantum dots (QDs) are expected to be used as an emitting material in wide-color-gamut
displays. However, the development of low-toxicity alternatives is necessary because QDs …