This issue features a theme on colloidal quantum dots, bringing together primary research findings and overviews, along with articles on the commercialization of this technology. It is a commonly ...

This work demonstrates a novel method of manipulating the QDs’ optical properties beyond controlling their size, composition ...

The use of colloidal quantum dots in bioanalytics and biolabeling has emerged as one of the most promising areas of application for these artificial nanoscale crystals. Despite the early potential ...

Laser technology is going to play an important role in advancing quantum devices, healthcare tools, and optical computing ...

Because of their unique optical properties, quantum dots are ideal for use in a variety of optical applications, including photovoltaics. Colloidal quantum dot solar cells (QDSCs) have caught the ...

Colloidal quantum dots (QDs) constitute a platform to explore various quantum effects. Their size-dependent colors are essentially a naked-eye, ambient-condition visualization of the quantum ...

Flowing quantum dot solutions enhance heat dissipation, enabling stable high-speed pulsed operation and tunable color output for next-generation optical devices.

Quantum dots, tiny particles of semiconductor that ... conducted a series of simulations to investigate the potential for colloidal perovskite quantum dot (PQD) solar cells to achieve higher ...

called a colloidal quantum dot, can cause them to shine without faltering, opening the door to new, affordable quantum possibilities. Quantum dots, or QDs, are so small that if you scaled up a ...

However, newly published research from the University of Oklahoma proves that adding a covering to one of these light sources, called a colloidal ... Communications. Quantum dots, or QDs, are ...