Semiconductor quantum dots: Technological progress and future challenges

First published: 2025-04-28

Last Edited: 2025-04-28

Number of edits: 1

In quantum-confined semiconductor nanostructures, electrons exhibit distinctive behavior compared with that in bulk solids. This enables the design of materials with tunable chemical, physical, electrical, and optical properties. Zero-dimensional semiconductor quantum dots (QDs) offer strong light absorption and bright narrowband emission across the visible and infrared wavelengths and have been engineered to exhibit optical gain and lasing. These properties are of interest for imaging, solar energy harvesting, displays, and communications. Here, we offer an overview of advances in the synthesis and understanding of QD nanomaterials, with a focus on colloidal QDs, and discuss their prospects in technologies such as displays and lighting, lasers, sensing, electronics, solar energy conversion, photocatalysis, and quantum information.

Source:
Tags:

Backlinks

These are the other notes that link to this one.

Nothing links here, how did you reach this page then?

Comment

Share your thoughts on this note. Comments are not public, they are messages sent directly to my inbox.

Aquiles Carattino

This note you are reading is part of my digital garden. Follow the links to learn more, and remember that these notes evolve over time. After all, this website is not a blog.