Effect of the temperature on the luminescence profile of photonic materials for biological applications

Abstract

Temperature has a significant impact on the luminescence profile of photonic materials for biological applications. This paper presents the effect of temperature on the luminescence profile of three different photonic materials in the range of the second biological window. The effect of temperature on luminescence properties is shown on glass, glass-ceramics, and phosphors co-doped with Eu³⁺/Nd³⁺/Yb³⁺ under UV laser diode excitation. Each sample has been analyzed for temperature effects on optical parameters in biological window ranges. Moreover the effect of temperature on mechanisms of energy transfer Eu³⁺ → Nd³⁺ → Yb³⁺ in all fabricated photonic materials was analyzed.

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References

1. J. Zhou, J.L. Leano Jr., Z. Liu, D. Jin, K.-L. Wong et al., "Impact of Lanthanide Nanomaterials on Photonic Devices and Smart Applications", Small 14, 1801882 (2018). CrossRef
2. Z. Li, Y. Zhang, G. Han, "Lanthanide-Doped Upconversion Nanoparticles for Imaging-Guided Drug Delivery and Therapy", Springer Series in Biomaterials Science and Engineering 6, 139 (2016). CrossRef
3. A. Zhang, Z. Sun, M.Jia, et al., "Simultaneous luminescence in Ⅰ, Ⅱ and III biological windows realized by using the energy transfer of Yb³⁺→Er³⁺/Ho³⁺→Cr³⁺", Chemical Engineering Journal 365, 400 (2019). CrossRef
4. M.-F. Tsai, S.-H.G. Chang, F.-Y. Cheng, V. Shanmugam, Y. Cheng et al., "Au Nanorod Design as Light-Absorber in the First and Second Biological Near-Infrared Windows for in Vivo Photothermal Therapy", ACS Nano 7, 5330 (2013). CrossRef
5. S. Ding, L. Lu, Y. Fan, F. Zhang, "Recent progress in NIR-II emitting lanthanide-based nanoparticles and their biological applications", J. Rare Earth. 38, 451 (2020). CrossRef
6. U. Rocha, K.U. Kumar, C. Jacinto, I. Villa, F. Sanz-Rodriguez et al., "Neodymium-Doped LaF₃ Nanoparticles for Fluorescence Bioimaging in the Second Biological Window", Small 10, 1141 (2014). CrossRef
7. M. Jia, Z. Sun, H. Xu, X. Jin, Z. Lv et al. "An ultrasensitive luminescent nanothermometer in the first biological window based on phonon-assisted thermal enhancing and thermal quenching", J. Mater. Chem. C 8, 15603 (2020). CrossRef
8. H. Lin, T. Hu, Y. Cheng, M. Chen, Y. Wang, "Glass Ceramic Phosphors: Towards Long-Lifetime High-Power White Light-Emitting-Diode Applications–A Review", Laser Photonic Rev. 12, 1700344 (2018). CrossRef
9. H. Su, Y. Nie, H. Yang, D. Tang, K. Chen, T. Zhang, "Improving the thermal stability of phosphor in a white light-emitting diode (LED) by glass-ceramics: Effect of Al₂O₃ dopant", J. Eur. Ceram. Soc. 38, 2005 (2018). CrossRef
10. Kenry, Y.Duan, B. Liu, "Recent Advances of Optical Imaging in the Second Near-Infrared Window", Adv. Mater. 30, 1802394 (2018). CrossRef
11. M.L. Debasu, H. Oliveira, J. Rocha, L.D. Carlos, "Colloidal (Gd_0.98Nd_0.02)₂O₃ nanothermometers operating in a cell culture medium within the first and second biological windows", J. Rare Earth. 38, 483-491 (2020). CrossRef
12. L. Pavasaryte, A. Katelnikovas, V. Klimavicius, V. Balevicius, A. Krajnc et al., "Eu³⁺-Doped Y_3−xNd_xAl₃O₁₂ garnet: synthesis and structural investigation", Phys. Chem. Chem. Phys. 19, 3729 (2017). CrossRef
13. K. Sadowska, P. Awramiuk, I Zgłobicka, K Rećko, J. Żmojda, "Quantum efficiency of europium doped LaPO4 phosphors for UV sensing applications", Photonics Lett. Poland 14, 28 (2022). CrossRef
14. P. Lei, J. Feng, H. Zhang, "Emerging biomaterials: Taking full advantage of the intrinsic properties of rare earth elements", Nano Today 35, 100952 (2020). CrossRef
15. K. Sadowska, T. Ragiń, M. Kochanowicz, P. Miluski, J. Dorosz, et al., "Analysis of Excitation Energy Transfer in LaPO₄ Nanophosphors Co-Doped with Eu³⁺/Nd³⁺ and Eu³⁺/Nd³⁺/Yb³⁺ Ions", Materials 16, 1588 (2023). CrossRef