Chemist Moungi Bawendi, chemist Louis Brus and physicist Alexei Ekimov split the prize for the discovery and synthesis of quantum dots, the Royal Swedish Academy of Sciences announced October 4.

Colloidal quantum dots (CQDs ... Numerous methods for the batch synthesis of monodisperse QDs—including hot-injection, heat-up, cluster-assisted, and microwave-assisted synthesis approaches—will be ...

A new green synthesis method uses laser ablation of bay leaves in PBS to create fluorescent carbon dots with stable blue ...

Bawendi’s precise synthesis technique, published in 1993, enabled the wider commercial use of quantum dots. 3 While quantum dots are not yet widely used in biomedicine, they have many potential ...

They discovered the first known de novo protein that catalyzes, or drives, the synthesis of quantum dots. Quantum dots are fluorescent nanocrystals used in electronic applications from LED screens ...

The energy band gap widens as the quantum dot size decreases. Most GQDs have a bandgap ... The most notable bottom-up synthesis routes are microwave-assisted, hydrothermal, stepwise organic synthesis ...

LONDON — The 2023 Nobel Prize in chemistry was awarded Wednesday to three scientists for the discovery and synthesis of quantum dots, tiny particles that have fueled innovations in ...

Brus, and Alexei I. Ekimov—have been awarded the 2023 Nobel Prize in Chemistry by the Royal Swedish Academy of Sciences “for the discovery and synthesis of quantum dots.” The news had ...

They started by optimizing the synthesis of the silver telluride colloidal quantum dots. Improving the process allowed them to eradicate surface defects on semiconductor particles, which are known ...

Brus, the S. L. Mitchell Professor of Chemistry at Columbia University and Alexei Ekimov, chief scientist at Nanocrystals Technology Inc. Bawendi, Brus and Ekimov share the prize for their discovery ...