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Persistent Luminescence Nanosensors: A Generalized Optode-Based Platform for Autofluorescence-Free Sensing in Biological Systems

Tyler Z. Sodia, Hanna Tetu, Samuel C. Saccomano, Elizabeth G. Letch, John M. Branning, Adrian A. Mendonsa, Shubham Vyas, Kevin J. Cash

2024ACS Sensors10 citationsDOI

Abstract

Fluorescent nanosensors have revolutionized diagnostics and our ability to monitor cellular dynamics. Yet, distinguishing sensor signals from autofluorescence remains a challenge. Here, we merged optode-based sensing with near-infrared-emitting ZnGa 2 O 4:Cr 3+ persistent luminescence nanoparticles (PLNPs) to create nanocomposites for autofluorescence-free “glow-in-the-dark” sensing. Hydrophobic modification and incorporation of the persistent luminescence nanoparticles into an optode-based nanoparticle core yielded persistent luminescence nanosensors (PLNs) for five analytes (K +, Na +, Ca 2+, pH, and O 2 ) via two distinct mechanisms. We demonstrated the viability of the PLNs by quantifying K + in fetal bovine serum, calibrating the pH PLNs in the same, and ratiometrically monitoring O 2 metabolism in cultures of Saccharomyces cerevisiae, all the while overcoming their respective autofluorescence signatures. This highly modular platform allows for facile tuning of the sensing functionality, optical properties, and surface chemistry and promises high signal-to-noise ratios in complex optical environments.

Topics & Concepts

OptodeLuminescenceAutofluorescenceNanosensorNanotechnologyLuminescent MeasurementsNanoparticleMaterials scienceBiosensorFluorescenceChemistryMembraneOptoelectronicsOpticsBiochemistryPhysicsAnalytical Chemistry and SensorsLuminescence and Fluorescent MaterialsBiosensors and Analytical Detection
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