New nanoparticles and quantum dots from a major producer of capacitors for smartphone manufacturers, could bring tiny, printable components and quantum-scale biomarkers into our daily lives.

Of course this will only be beneficial for nanoparticles with limited diffusion, such as particles bound to membrane receptors or large particles in the cellular cytoplasm; small quantum dots (<15 ...

Quantum dots – nanoparticles of semiconductors – were first theorized in the 1970s and then successfully synthesized in the early 1980s. When semiconductor particles are made small enough, they ...

What QDEL means for the future is OLED-like performance — in some measures better than OLED — with no burn-in risk, a much ...

Nanoparticles of semiconductors (quantum dots) were theorized in the 1970s and initially created in the early 1980s. If semiconductor particles are made small enough, quantum effects come into play, ...

Researchers at the University of Strathclyde, UK, have developed a new method to recycle the valuable semiconductor colloidal ...

Less than 500 nanometers in size, these "nanoparticles," or "nanocrystals ... The applications for quantum dots include medical sensors as well as LCD and OLED display screens (see QLED and ...

When you hear about quantum dots in your TV, they are typically tiny nanoparticles that glow a certain color when you shine light on them. They glow sympathetically. That’s what’s happening in ...

Nanoparticle aggregates and supraparticle ... by heating the spent lasers and exposing them to sound waves. The quantum dots were then separated from contaminants with a mixture of oil and water ...

Quantum dots – nanoparticles of semiconductor material able to carry a charge – have been investigated for their solar cell potential in various materials for at least a decade and have made ...

and it should be applicable to any colloidal nanoparticle species, especially rare-earth ones." In a paper titled "Recycling self-assembled colloidal quantum dot supraparticle lasers," published ...