MIT engineers found a way to dramatically improve the signal emitted by fluorescing nanosenors. The researchers showed they could implant sensors as deep as 5.5 centimeters in tissue and still get a strong signal.
Green Fluorescent Protein GFP-Chromophore-Based Probe for the Detection of Mitochondrial Viscosity in Living Cells
New strategy for clinically relevant protein sequencing — English
Shining a light on NAD- and NADP-based metabolism in plants: Trends in Plant Science
Recent advances in metal-organic framework (MOF)-based agricultural sensors for metal ions: a review
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MIT engineers boost signals from fluorescent sensors, MIT News
Soil Sensors and Plant Wearables for Smart and Precision Agriculture - Yin - 2021 - Advanced Materials - Wiley Online Library
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Waveform response of the proposed temperature sensors: (a) Reference
Large-scale capture of hidden fluorescent labels for training generalizable markerless motion capture models
The Particle Accelerator Reinvented: Compact, Powerful, and Ready to Transform Science