Further research will allow us to control luminescence more effectively, leading to advances in areas such as nano-optical ...

New research from the University of Oklahoma addresses and resolves light emission challenges commonly encountered in quantum ...

Quantum sensors can detect minute changes in magnetic ... and quantum communication. Nanotechnology enables the fabrication and control of quantum dots with precise sizes, shapes, and compositions, ...

Colloidal quantum dots are often referred to as artificial atoms, primarily because of their atom-like electron energy spectrum. Like atoms, they can form ordered structures that are commonly ...

Quantum dots are crystals of a fluorescent semiconductor material with a diameter of as few as 10 to 100 atoms (2-10 nm). They are used as labels for imaging molecules because of their very narrow ...

Quantum emitters are nanoscale systems that can generate single photons or pairs of entangled photons on demand. These emitters are typically based on the optical transitions of individual quantum ...

Specialized nano-diamonds with nitrogen-vacancy centers—atomic-scale flaws that function as quantum sensors—were employed by the team. These flaws, which are among the numerous flaws that give ...

Nanoco Group PLC (LSE: NANO), a world leader in the development ... how Nanoco’s technology enables the production of Quantum Dots at scale making high-performance infrared image sensors more ...

A sensor that uses the principles of quantum mechanics to detect minuscule changes in motion and electromagnetic fields. Exploiting the energy levels in atoms, quantum sensors are expected to ...