Advances in nano-and microscale NMR spectroscopy using diamond quantum sensors
Quantum technologies have seen a rapid developmental surge over the last couple of years.
Though often overshadowed by quantum computation, quantum sensors show tremendous …
Though often overshadowed by quantum computation, quantum sensors show tremendous …
Nuclear quadrupole resonance spectroscopy with a femtotesla diamond magnetometer
Radio frequency (RF) magnetometers based on nitrogen vacancy centers in diamond are
predicted to offer femtotesla sensitivity, but previous experiments were limited to the …
predicted to offer femtotesla sensitivity, but previous experiments were limited to the …
Quantum sensors in diamonds for magnetic resonance spectroscopy: Current applications and future prospects
Nuclear magnetic resonance (NMR) and electron spin resonance (ESR) methods are
indispensable techniques that utilize the spin of particles to probe matter, with applications …
indispensable techniques that utilize the spin of particles to probe matter, with applications …
The role of electrolytes in the relaxation of near-surface spin defects in diamond
Quantum sensing with spin defects in diamond, such as the nitrogen vacancy (NV) center,
enables the detection of various chemical species on the nanoscale. Molecules or ions with …
enables the detection of various chemical species on the nanoscale. Molecules or ions with …
Extending radiowave frequency detection range with dressed states of solid-state spin ensembles
Quantum sensors using solid-state spin defects excel in the detection of radiofrequency (RF)
fields, serving various applications in communication, ranging, and sensing. For this …
fields, serving various applications in communication, ranging, and sensing. For this …
X-ray quantification of oxygen groups on diamond surfaces for quantum applications
Identifying the surface chemistry of diamond materials is increasingly important for device
applications, especially quantum sensors. Oxygen-related termination species are widely …
applications, especially quantum sensors. Oxygen-related termination species are widely …
Electric current paths in a Si: P delta-doped device imaged by nitrogen-vacancy diamond magnetic microscopy
The recently-developed ability to control phosphorous-do** of silicon at an atomic level
using scanning tunneling microscopy, a technique known as atomic precision advanced …
using scanning tunneling microscopy, a technique known as atomic precision advanced …
Quadrupolar resonance spectroscopy of individual nuclei using a room-temperature quantum sensor
Nuclear quadrupolar resonance (NQR) spectroscopy reveals chemical bonding patterns in
materials and molecules through the unique coupling between nuclear spins and local …
materials and molecules through the unique coupling between nuclear spins and local …
Effect of Negative Thermal Expansion on the Zero-Phonon Line of Implanted Silicon Vacancy Color Centers in Diamond
The charged silicon vacancy (SiV–) color center in diamond can be created by focused ion
beam (FIB) implantation, allowing deterministic creation of single photon emitters. Here, we …
beam (FIB) implantation, allowing deterministic creation of single photon emitters. Here, we …
Challenges and prospects of in situ nuclear magnetic resonance for electrochemistry devices
Understanding the electrochemical mechanisms in supercapacitors is key in the attempt to
improve their performance to meet the current needs of energy storage devices …
improve their performance to meet the current needs of energy storage devices …