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Nanoscale quantum sensing with Nitrogen-Vacancy centers in nanodiamonds – A magnetic resonance perspective

Takuya F. Segawa, Ryuji Igarashi

2022Progress in Nuclear Magnetic Resonance Spectroscopy101 citationsDOIOpen Access PDF

Abstract

Nanodiamonds containing fluorescent Nitrogen-Vacancy (NV) centers are the smallest single particles, of which a magnetic resonance spectrum can be recorded at room temperature using optically-detected magnetic resonance (ODMR). By recording spectral shift or changes in relaxation rates, various physical and chemical quantities can be measured such as the magnetic field, orientation, temperature, radical concentration, pH or even NMR. This turns NV-nanodiamonds into nanoscale quantum sensors, which can be read out by a sensitive fluorescence microscope equipped with an additional magnetic resonance upgrade. In this review, we introduce the field of ODMR spectroscopy of NV-nanodiamonds and how it can be used to sense different quantities. Thereby we highlight both, the pioneering contributions and the latest results (covered until 2021) with a focus on biological applications.

Topics & Concepts

Nitrogen-vacancy centerVacancy defectMagnetic fieldNanoscopic scaleRelaxation (psychology)NanotechnologyQuantum sensorSpectroscopyQuantumMaterials scienceNuclear magnetic resonancePhysicsQuantum simulatorQuantum computerPsychologyQuantum mechanicsSocial psychologyDiamond and Carbon-based Materials ResearchIon-surface interactions and analysisHigh-pressure geophysics and materials