Ion-induced bias in Ag 2 S luminescent nanothermometers.
Marina París-OgáyarDiego Mendez-GonzalezIrene Zabala GutierrezÁlvaro ArtigaJorge Rubio-RetamaOscar G CalderónSonia MelleAida SerranoAna EspinosaDaniel JaqueRiccardo MarinPublished in: Nanoscale (2023)
Luminescence nanothermometry allows measuring temperature remotely and in a minimally invasive way by using the luminescence signal provided by nanosized materials. This technology has allowed, for example, the determination of intracellular temperature and in vivo monitoring of thermal processes in animal models. However, in the biomedical context, this sensing technology is crippled by the presence of bias (cross-sensitivity) that reduces the reliability of the thermal readout. Bias occurs when the impact of environmental conditions different from temperature also modifies the luminescence of the nanothermometers. Several sources that cause loss of reliability have been identified, mostly related to spectral distortions due to interaction between photons and biological tissues. In this work, we unveil an unexpected source of bias induced by metal ions. Specifically, we demonstrate that the reliability of Ag 2 S nanothermometers is compromised during the monitoring of photothermal processes produced by iron oxide nanoparticles. The observed bias occurs due to the heat-induced release of iron ions, which interact with the surface of the Ag 2 S nanothermometers, enhancing their emission. The results herein reported raise a warning to the community working on luminescence nanothermometry, since they reveal that the possible sources of bias in complex biological environments, rich in molecules and ions, are more numerous than previously expected.
Keyphrases
- quantum dots
- sensitive detection
- energy transfer
- minimally invasive
- high glucose
- gene expression
- drug delivery
- healthcare
- mental health
- drug induced
- drinking water
- magnetic resonance
- cancer therapy
- iron oxide nanoparticles
- high resolution
- oxidative stress
- highly efficient
- climate change
- mass spectrometry
- endothelial cells
- photodynamic therapy
- light emitting
- dna methylation
- heat stress
- computed tomography
- single cell
- stress induced
- solid phase extraction
- aqueous solution