Engineering efficient upconverting nanothermometers using Eu 3+ ions.
Giacomo LucchiniAdolfo SpeghiniPatrizia CantonFiorenzo VetroneMarta QuintanillaPublished in: Nanoscale advances (2018)
Upconversion nanothermometry combines the possibility of optically sensing temperatures in very small areas, such as microfluidic channels or on microelectronic chips, with a simple detection setup in the visible spectral range and reduced heat transfer after near-infrared (NIR) excitation. We propose a ratiometric strategy based on Eu 3+ ion luminescence activated through upconversion processes. Yb 3+ ions act as a sensitizer in the NIR region (980 nm), and energy is transferred to Tm 3+ ions that in turn excite Eu 3+ ions whose luminescence is shown to be thermally sensitive. Tridoped SrF 2 :Yb 3+ ,Tm 3+ ,Eu 3+ nanoparticles (average size of 17 nm) show a relative thermal sensitivity of 1.1% K -1 at 25.0 °C, in the range of the best ones reported to date for Ln 3+ -based nanothermometers based on upconversion emission. The present nanoparticle design allows us to exploit upconversion of lanthanide ions that otherwise cannot be directly excited upon NIR excitation and that may provide operational wavelengths with a highly stable read out to fill the spectral gaps currently existing in upconversion-based nanothermometry.
Keyphrases
- energy transfer
- quantum dots
- photodynamic therapy
- sensitive detection
- fluorescent probe
- fluorescence imaging
- optical coherence tomography
- drug release
- aqueous solution
- water soluble
- loop mediated isothermal amplification
- drug delivery
- single molecule
- high throughput
- label free
- heat stress
- magnetic resonance
- hydrogen peroxide
- single cell
- dual energy