Dorosz, DominikDominikDoroszKochanowicz, MarcinMarcinKochanowiczValiente, RafaelRafaelValienteDiego-Rucabado, AndreaAndreaDiego-RucabadoRodriguez, FernandoFernandoRodriguezSiñeriz-Niembro, NuriaNuriaSiñeriz-NiembroEspeso, José I.José I.EspesoLesniak, MagdalenaMagdalenaLesniakMiluski, PiotrPiotrMiluskiConzendorf, SylviaSylviaConzendorfPosseckardt, JulianeJulianePosseckardtLiao, ZhongquanZhongquanLiaoMüller, RobertRobertMüllerMartin, LorenzLorenzMartinSchwuchow, AnkaAnkaSchwuchowJimenez, Gloria LeslyGloria LeslyJimenezLeich, MartinMartinLeichLorenz, AdrianAdrianLorenzWondraczek, KatrinKatrinWondraczekJäger, MatthiasMatthiasJäger2024-05-162024-05-162024https://publica.fraunhofer.de/handle/publica/46794910.1038/s41598-024-57307-4Optical fiber with YPO4:Pr3+ nanocrystals (NCs) is presented for the first time using the glass powder - NCs doping method. The method’s advantage is separate preparation of NCs and glass to preserve luminescent and optical properties of NCs once they are incorporated into optical fiber. The YPO4:Pr3+ nanocrystals were synthesized by the co-precipitation and hydrothermal methods, optimized for size (< 100 nm), shape, Pr3+ ions concentration (0.2 mol%), and emission lifetime. The core glass was selected from the non-silica P2O5-containing system with refractive index (n = 1.788) close to the NCs (no = 1.657, ne = 1.838). Optical fiber was drawn by modified powder-in-tube method after pre-sintering of glass powder - YPO4:Pr3+ (wt 3%) mixture to form optical fiber preform. Luminescent properties of YPO4:Pr3+ and optical fiber showed their excellent agreement, including sharp Pr3+ emission at 600 nm (1D2–3H4) and 1D2 level lifetime (τ = 156 ± 5 µs) under 488 nm excitation. The distribution of the YPO4:Pr3+ NCs in optical fiber were analyzed by TEM-EDS in the core region (FIB-SEM-prepared). The successful usage of glass powder - NCs doping method was discussed in the aspect of promising properties of the first YPO4:Pr3+ doped optical fiber as a new way to develop active materials for lasing applications, among others.enGlass powder-NCs doping methodYPO4:Pr3+ nanopatriclesNanocomposite optical fibersjournal article