Polymer thin-film optical cavities boost the magnetic sensing sensitivity of nanodiamond quantum sensors nearly fivefold ...

Diamond nanoparticles containing nitrogen-vacancy centers can now monitor cellular metabolism in real time, targeting specific organelles while tracking particle movement inside living cells.

Impurities in diamonds can not only give them color, they can also turn diamonds into precise sensors of magnetic field and temperature. When the impurity happens to be a nitrogen atom, the crystal ...

Researchers have used the nitrogen-vacancy (NV) center inside a single nanodiamond for quantum sensing to overcome the problem of random particle rotation. Their study is published in Nature ...

Researchers at Japan’s Okayama University have developed nanodiamond sensors that can lead to the development of advanced quantum sensors and bioimaging applications. Quantum-grade bioimaging will ...

WEST LAFAYETTE, Ind. – Researchers have demonstrated how to control the "electron spin" of a nanodiamond while it is levitated with lasers in a vacuum, an advance that could find applications in ...

Researchers have demonstrated how to control the 'electron spin' of a nanodiamond while it is levitated with lasers in a vacuum, an advance that could find applications in quantum information ...

Researchers measured the temperature of C. elegans nematode worms via tracking of embedded nanodiamonds. (Courtesy: Masazumi Fujiwara, Osaka City University) How do you take a worm’s temperature? With ...

Teams led by Prof. DU Jiangfeng, Prof. SHI Fazhan and Prof. KONG Fei from the University of Science and Technology of China (USTC) of the Chinese Academy of Sciences (CAS) used the Nitrogen-Vacancy ...

WEST LAFAYETTE, Ind. - Researchers have demonstrated how to control the "electron spin" of a nanodiamond while it is levitated with lasers in a vacuum, an advance that could find applications in ...