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 ...

Scientists from China have developed high-performance colloidal quantum-dot (CQD)  surface-emitting laser array based on ...

The simultaneous capability of colloidal QDs to sustain robust room-temperature spin quantum coherence and to engage in ...

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 ...

Colloidal quantum dots are showcasing their potential beyond vibrant colors, diving deep into quantum effects such as spin coherence. Researchers are pioneering the use of these quantum properties to ...

(Courtesy: Dillon H Downie, University of Strathclyde) Researchers at the University of Strathclyde, UK, have developed a new method to recycle the valuable semiconductor colloidal quantum dots used ...

He was one of the initial developers of the field of colloidal quantum dots, with his work spanning from fundamental studies of nanomaterials to their applications. His laboratory at MIT has advanced ...

One approach to developing blue lasers entails the use of colloidal quantum dots (CQDs). These are nanoscale semiconducting particles with unique optical properties associated with their size.

They are created by combining quantum dots in a solution that allows them ... and it should be applicable to any colloidal nanoparticle species, especially rare-earth ones.” ...

Colloidal nanoparticles are particles that operate at the nanoscale, specifically between 1 to 1000 nanometers, suspended in a fluid. These nanoparticles can consist of various materials, such as ...

The team developed a HGFET consisting of a colloidal quantum dot (CQD)-based p-i-n heterojunction and a carbon nanotube (CNT) field-effect transistor, which significantly detects and amplifies ...