Quantum dots are composed of semiconducting materials like cadmium selenide (CdSe) or indium arsenide (InAs) and can be synthesized through various methods. For instance, colloidal synthesis and ...

Graphene has a wide range of applications, but due to its zero-band gap property, low dispersibility in water and low spectral absorption, it cannot be used in many areas, including optoelectronics, ...

A robotic arm made of metal and plastic moves a sample in a laboratory setting. Robotic laboratories driven by artificial intelligence algorithms could speed up materials discovery. Researchers have ...

This study reveals that low-temperature nucleation and high-temperature growth represent an effective strategy for balancing monomer and ionic ligand supply in the direct synthesis of ions-coordinated ...

Rainbow, an autonomous multi-robot lab, accelerates quantum dot discovery with AI, enabling up to 1,000 daily experiments for next-gen technologies. (Nanowerk News) Researchers at North Carolina State ...

This event is free and open to the public with a general admission ticket. Reserve Your Seat Nobel laureate Moungi Bawendi grew up in France, Tunisia and the United States, attending West Lafayette ...

Moungi G. Bawendi ’82 was among three scientists awarded the 2023 Nobel Prize in Chemistry “for the discovery and synthesis of quantum dots,” the Royal Swedish Academy of Sciences announced in a press ...

What are Graphene Quantum Dots? Graphene quantum dots (GQDs) are nanoscale fragments of graphene with lateral dimensions typically below 100 nanometers. These tiny nanostructures exhibit unique ...