The study authors successfully developed quantum-grade bright fluorescent nanodiamonds for carrying out the study.

Quantum sensing is a rapidly developing field that utilizes the quantum states of particles, such as superposition, ...

Researchers have developed nanodiamond sensors with nitrogen-vacancy (NV) centers, offering exceptional brightness and spin properties for quantum sensing and bioimaging. These nanodiamonds outperform ...

Researchers achieved a breakthrough in nanodiamond sensors with quantum-grade spin properties, ideal for bioimaging and ...

Insights into molecular behaviour could unlock potential for organic light-emitting diodes and other bioimaging applications ...

Researchers developed nanodiamonds with spin properties matching bulk diamonds, overcoming limitations in current sensors.

The bioimaging Core Facility at Ulster University is equipped with £5 million state-of-the-art instrumentation and provides a unique opportunity for access to imaging modalities rarely found within a ...

These insights are crucial for advancing applications like organic light-emitting diodes and bioimaging, enabling innovations in material design and energy interactions. Light emission from ...

However, NDs used for bioimaging generally exhibit lower spin quality compared to bulk diamonds, resulting in reduced sensitivity and accuracy in measurements. In a recent breakthrough, scientists ...

Quantum sensing is a rapidly developing field that utilizes the quantum states of particles, such as superposition, entanglement, and spin states, to ...