Issue 1, 2019

Intracellular ratiometric temperature sensing using fluorescent carbon dots

Abstract

Highly sensitive non-invasive temperature sensing is critical for studying fundamental biological processes and applications in medical diagnostics. Nanoscale-based thermometers are promising non-invasive probes for precise temperature sensing with subcellular resolution. However, many of these systems have limitations as they rely on fluorescence intensity changes, deconvolution of peaks, or the use of hybrid systems to measure thermal events. To address this, we developed a fluorescence-based ratiometric temperature sensing approach using carbon dots prepared via microwave synthesis. These dots possess dual fluorescence signatures in the blue and red regions of the spectrum. We observed a linear response as a function of temperature in the range of 5–60 °C with a thermal resolution of 0.048 K−1 and thermal sensitivity of 1.97% C−1. Temperature-dependent fluorescence was also observed in HeLa cancer cells over a range of 32–42 °C by monitoring changes in the red-to-blue fluorescence signatures. We demonstrate that the ratiometric approach is superior to intensity-based thermal sensing because it is independent of the intracellular concentration of the optical probe. These findings suggest that dual-emitting carbon dots can be an effective tool for in vitro and possibly in vivo fluorescence nanothermometry.

Graphical abstract: Intracellular ratiometric temperature sensing using fluorescent carbon dots

Supplementary files

Article information

Article type
Paper
Submitted
28 9 2018
Accepted
09 12 2018
First published
10 12 2018
This article is Open Access
Creative Commons BY license

Nanoscale Adv., 2019,1, 105-113

Intracellular ratiometric temperature sensing using fluorescent carbon dots

J. Macairan, D. B. Jaunky, A. Piekny and R. Naccache, Nanoscale Adv., 2019, 1, 105 DOI: 10.1039/C8NA00255J

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