Your search keyword '"Miluski, Piotr"' showing total 7 results

1. Pr3+-doped YPO4 nanocrystal embedded into an optical fiber.

Author

Dorosz, Dominik, Kochanowicz, Marcin, Valiente, Rafael, Diego-Rucabado, Andrea, Rodríguez, Fernando, Siñeriz-Niembro, Nuria, Espeso, José I., Lesniak, Magdalena, Miluski, Piotr, Conzendorf, Sylvia, Posseckardt, Juliane, Liao, Zhongquan, Jimenez, Gloria Lesly, Müller, Robert, Lorenz, Martin, Schwuchow, Anka, Leich, Martin, Lorenz, Adrian, Wondraczek, Katrin, and Jäger, Matthias

Subjects

POWDERED glass, DOPING agents (Chemistry), GLASS-ceramics, OPTICAL properties, REFRACTIVE index, OPTICAL fibers, NANOCRYSTALS

Abstract

Optical 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. [ABSTRACT FROM AUTHOR]

Published

2024

2. Analysis of Excitation Energy Transfer in LaPO 4 Nanophosphors Co-Doped with Eu 3+ /Nd 3+ and Eu 3+ /Nd 3+ /Yb 3+ Ions.

Author

Sadowska, Karolina, Ragiń, Tomasz, Kochanowicz, Marcin, Miluski, Piotr, Dorosz, Jan, Leśniak, Magdalena, Dorosz, Dominik, Kuwik, Marta, Pisarska, Joanna, Pisarski, Wojciech, Rećko, Katarzyna, and Żmojda, Jacek

Subjects

ENERGY transfer, YTTERBIUM, DOPING agents (Chemistry), LUMINESCENCE measurement, IONIC structure, IONS

Abstract

Nanophosphors are widely used, especially in biological applications in the first and second biological windows. Currently, nanophosphors doped with lanthanide ions (Ln3+) are attracting much attention. However, doping the matrix with lanthanide ions is associated with a narrow luminescence bandwidth. This paper describes the structural and luminescence properties of co-doped LaPO4 nanophosphors, fabricated by the co-precipitation method. X-ray structural analysis, scanning electron microscope measurements with EDS analysis, and luminescence measurements (excitation 395 nm) of LaPO4:Eu3+/Nd3+ and LaPO4:Eu3+/Nd3+/Yb3+ nanophosphors were made and energy transfer between rare-earth ions was investigated. Tests performed confirmed the crystal structure of the produced phosphors and deposition of rare-earth ions in the structure of LaPO4 nanocrystals. In the range of the first biological window (650–950 nm), strong luminescence bands at the wavelengths of 687 nm and 698 nm (5D0 → 7F4:Eu3+) and 867 nm, 873 nm, 889 nm, 896 nm, and 907 nm (4F3/2 → 4I9/2:Nd3+) were observed. At 980 nm, 991 nm, 1033 nm (2F5/2 → 2F7/2:Yb3+) and 1048 nm, 1060 nm, 1073 nm, and 1080 nm (4F3/2 → 4I9/2:Nd3+), strong bands of luminescence were visible in the 950 nm–1100 nm range, demonstrating that energy transfer took place. [ABSTRACT FROM AUTHOR]

Published

2023

3. Crystallization Mechanism and Optical Properties of Antimony-Germanate-Silicate Glass-Ceramic Doped with Europium Ions.

Author

Golonko, Piotr, Sadowska, Karolina, Ragiń, Tomasz, Kochanowicz, Marcin, Miluski, Piotr, Dorosz, Jan, Kuwik, Marta, Pisarski, Wojciech, Pisarska, Joanna, Leśniak, Magdalena, Dorosz, Dominik, and Żmojda, Jacek

Subjects

OPTICAL properties, GLASS-ceramics, EUROPIUM, CORE materials, CRYSTALLIZATION, LUMINESCENCE spectroscopy, IONS

Abstract

Glass-ceramic is semi-novel material with many applications, but it is still problematic in obtaining fibers. This paper aims to develop a new glass-ceramic material that is a compromise between crystallization, thermal stability, and optical properties required for optical fiber technology. This compromise is made possible by an alternative method with a controlled crystallization process and a suitable choice of the chemical composition of the core material. In this way, the annealing process is eliminated, and the core material adopts a glass-ceramic character with high transparency directly in the drawing process. In the experiment, low phonon antimony-germanate-silicate glass (SGS) doped with Eu3+ ions and different concentrations of P2O5 were fabricated. The glass material crystallized during the cooling process under conditions similar to the drawing processes'. Thermal stability (DSC), X-ray photo analysis (XRD), and spectroscopic were measured. Eu3+ ions were used as spectral probes to determine the effect of P2O5 on the asymmetry ratio for the selected transitions (5D0 → 7F1 and 5D0 → 7F2). From the measurements, it was observed that the material produced exhibited amorphous or glass-ceramic properties, strongly dependent on the nucleator concentration. In addition, the conducted study confirmed that europium ions co-form the EuPO4 structure during the cooling process from 730 °C to room temperature. Moreover, the asymmetry ratio was changed from over 4 to under 1. The result obtained confirms that the developed material has properties typical of transparent glass-ceramic while maintaining high thermal stability, which will enable the fabrication of fibers with the glass-ceramic core. [ABSTRACT FROM AUTHOR]

Published

2022

4. White light emission PMMA fibre co-doped with 1,4-Bis(2-methylstyryl) benzene and Rhodamine B for new optical applications.

Author

Miluski, Piotr, Kochanowicz, Marcin, Żmojda, Jacek, Baranowska, Agata, Ragiń, Tomasz, and Dorosz, Dominik

Subjects

*RHODAMINE B, *XANTHENE dyes, *BENZENE, *FIBERS, *VISIBLE spectra, *METHYL methacrylate

Abstract

The article presents the white light emission poly (methyl methacrylate) cylindrical fibre fabricated by co-doping by organic luminescent dyes. The used composition of aromatic hydrocarbon 1,4-Bis(2-methylstyryl) benzene Bis(MSB) and xanthene dye Rhodamine B (RhB) assures covering the emission in the range 370–700 nm under 355 nm excitation (Nd-YAG, third harmonic). The chosen complexes, according to the wide emission bands in the visible spectrum range and relatively large spectral shift of emission Bis(MSB) and absorption bands of RhB complexes, reduce the spectrum shape modification in the polymeric fibre structure and can be effectively used for lightning applications. The fabrication process and characterization of luminescent properties (emission spectrum, chromaticity CIE 1931 coordinates) vs. fibre length (0.5 m) are presented and discussed. Image 1 [ABSTRACT FROM AUTHOR]

Published

2020

5. Glass-ceramic optical fibers with controlled crystallization of core doped with europium ions.

Author

Golonko, Piotr, Kochanowicz, Marcin, Miluski, Piotr, Kuwik, Marta, Pisarska, Joanna, Pisarski, Wojciech, Dorosz, Jan, Leśniak, Magdalena, Dorosz, Dominik, Basa, Anna, and Żmojda, Jacek

Subjects

*EUROPIUM, *OPTICAL materials, *CORE materials, *CRYSTALLIZATION, *OPTICAL properties, *OPTICAL fibers, *GLASS-ceramics

Abstract

In this paper, we report on fabricating optical fibers with a controlled process of crystallization core during the drawing process. The research and synthesis of the core material of silica-germanium-antimony oxide glass were discussed. We also investigated the optical and luminescence properties were in relation to concentrating Eu 2 O 3 and P 2 O 5. Based on this investigation, we selected the most promising material for optical fiber core. In the next step, we drew optical fibers using a well-known rod-in-tube method. After drawing, we examine the optical fibers for luminescence shape changes. We observed a promising similarity between optical fibers and heat-treated samples with confirmed nanocrystals. Finally, XRD and TEM measurements confirm EuPO 4 nanocrystals at the core of the optical fiber. Highlighting the successful control of crystallization in the one-step method used to draw optical fibers. [ABSTRACT FROM AUTHOR]

Published

2024

6. Luminescence Sensing Method for Degradation Analysis of Bioactive Glass Fibers.

Author

Baranowska, Agata, Kochanowicz, Marcin, Wajda, Aleksandra, Leśniak, Magdalena, Żmojda, Jacek M., Miluski, Piotr, Zgłobicka, Izabela, Kurzydłowski, Krzysztof J., Dorosz, Dominik, and Zaballa, Joseba Zubia

Subjects

GLASS fibers, BIOACTIVE glasses, GLASS analysis, LUMINESCENCE, ION analysis, OPTICAL properties, ELECTRON microscopes

Abstract

The effects of Sm3+ content on the optical properties and bioactivity of 13-93 bioactive glass were presented. Sm3+ doped glass fibers drawn from bioactive glass were analyzed in simulated body fluid (SBF) for the determination of ion release. Optical analysis of the Sm3+ ions in bioactive glass fibers was used for degradation monitoring. While the fibers were immersed in SBF solution, changes in their luminescence spectra under 405 nm laser excitation were measured continuously for 48 h. The morphology of the fibers after the immersion process was determined by SEM/EDS. It was shown that the proposed approach to the analysis of changes in Sm3+ ion luminescence is a sensitive method for the monitoring of degradation processes and the formation of hydroxycarbonate-apatite (HCA) layers on glass fiber surfaces. SEM/EDS measurements showed a significant deterioration on the surface of the fibers and the formation of HCA on 13-93_02Sm bioactive glass. The optical analysis of the time constant indicated that bioactive glass fibers doped with 2 %mol Sm3+ degrade at a rate almost five times slower than 13-93_02Sm. [ABSTRACT FROM AUTHOR]

Published

2021

7. Structural and optical properties of antimony-germanate-borate glass and glass fiber co-doped Eu3+ and Ag nanoparticles.

Author

Zmojda, Jacek, Kochanowicz, Marcin, Miluski, Piotr, Baranowska, Agata, Pisarski, Wojciech A., Pisarska, Joanna, Jadach, Renata, Sitarz, Maciej, and Dorosz, Dominik

Subjects

*OPTICAL properties, *NANOPARTICLES, *FOURIER transform infrared spectroscopy, *OPTICAL fibers, *GLASS fibers, *HEAT treatment, *SYMMETRY (Physics)

Abstract

In the paper analysis of structural and luminescent properties of antimony-germanate-borate glasses and glass fiber co-doped with 0.6AgNO 3 /0.2Eu 2 O 3 are presented. Heat treatment of the fabricated glass and optical fiber (400 °C, 12 h) enabled to obtain Ag nanoparticles (NPs) with average size 30–50 nm on their surface. It has been proofed that silver ions migrate to the glass surface, where they are reduced to Ag 0 nanoparticles. Simultaneously, FTIR analysis showed that heat treatment of the glass and optical fiber increases the local symmetry of the Eu 3+ site. [ABSTRACT FROM AUTHOR]

Published

2018