Recent advances in nanomaterial design and synthesis has resulted in robust sensing
systems that display superior analytical performance. The use of nanomaterials within …

Quantum sensing using optically addressable atomic-scale defects, such as the nitrogen-
vacancy (NV) center in diamond, provides new opportunities for sensitive and highly …

Developing superior quantum sensing strategies ranging from ultrahigh precision
measurements to complex structural analyses is at the heart of quantum technologies …

Optically active spin defects in van der Waals materials are promising platforms for modern
quantum technologies. Here we investigate the coherent dynamics of strongly interacting …

The ability to sensitively image electric fields is important for understanding many
nanoelectronic phenomena, including charge accumulation at surfaces and interfaces and …

Quantum technology grown out of quantum information theory, including quantum
communication, quantum computation and quantum sensing, not only provides powerful …

Negatively charged boron vacancy (VB−) centers in hexagonal boron nitride (h-BN) are
promising spin defects in a van der Waals crystal. Understanding the spin properties of the …

Nitrogen-vacancy (NV) center in diamond is a promising quantum sensor with remarkably
versatile sensing capabilities. While scanning NV magnetometry is well-established, NV …

We present a novel method for fabricating highly customizable three-dimensional structures
hosting quantum sensors based on nitrogen vacancy (NV) centers using two-photon …

Nitrogen-vacancy (NV–) centers in nanodiamonds have emerged as a versatile platform for
a wide range of applications, including bioimaging, photonics, and quantum sensing …