Optical Tweezers Assembled Nanodiamond Quantum Sensors.
Adam StewartYing ZhuYiting LiuDavid A SimpsonPeter J ReecePublished in: Nano letters (2024)
Here we show that gradient force optical tweezers can be used to mediate the self-assembly of nanodiamonds into superstructures, which can serve as optically trapped nanoscale quantum probes with superior magnetic resonance sensing capabilities. Enhanced fluorescence rates from nitrogen-vacancy NV - defect centers enable rapid acquisition of optically detected magnetic resonance (ODMR), and shape-induced forces can improve both positioning accuracy and orientation control. The use of confocal imaging can isolate the signal from individual nanodiamonds within the assembly, thereby retaining the desirable properties of a single crystal probe. The improvements afforded by the use nanodiamond assemblies has the potential to resolve dynamic changes through, for example, real-time monitoring of the ODMR contrast.
Keyphrases
- magnetic resonance
- high resolution
- single molecule
- energy transfer
- living cells
- molecular dynamics
- atomic force microscopy
- high speed
- contrast enhanced
- high glucose
- quantum dots
- diabetic rats
- small molecule
- fluorescence imaging
- optical coherence tomography
- mass spectrometry
- drug induced
- monte carlo
- low cost
- endothelial cells
- computed tomography
- oxidative stress
- magnetic resonance imaging
- human health
- nucleic acid
- soft tissue