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Update Data 
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malgorzata.norek@wat.edu.pl |
| Last update: 18/02/2022 | |
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| Name: |
| Małgorzata |
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Surname: |
Norek |
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Institution: |
Military University of Technology, Warsaw |
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Type of Institution: |
University |
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ORCID number: |
https://orcid.org/0000-0002-0460-486X
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Google Scholar: |
https://scholar.google.pl/citations?user=ZxxolCoAAAAJ&hl=en
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Publons: |
https://publons.com/researcher/3398856/magorzata-n
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Research Gate: |
https://www.researchgate.net/profile/MaIgorzata-No
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Country: |
Poland
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WEB address: |
https://www.researchgate.net/profile/MaIgorzata-Norek/2 |
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Working groups of interest |
| - | WG1 - Advances in Porous Materials and Technologies |
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| Keywords |
| - | | Nanopores | | - | | Oxides | | - | | Porous Semiconductors | | - | | Smart Functional Surfaces |
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Research field (Free keywords) |
anodic alumina; 1D porous photonic crystals; plasmonics; luminescence properties of semiconductors. |
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Scientific expertise |
-Synthesis of porous anodic alumina of variable geometrical parameters, such as pore diameters or interpore distance;
-Pulse anodization of aluminum to obtain 1D porous photonic crystals with photonic stopbands ranging from UV up to mid-IR spectral region;
-AAO template assisted synthesis of various nanostructures (ZnO, SnO2) using atomic layer deposition (ALD) technique;
-Optimization of UV emission from ZnO by surface modification using various broad bandgap coating materials prepared by ALD;
-Synthesis of plasmonic metallic nanoparticles (Au, Ag, Al) using PVD technique and green chemistry methods for application in plasmon enhanced fluorescence (e.g. in ZnO nanostructures) or in SERS. |
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Capabilities |
-equipment for anodization and pulse anodization of aluminum;
-optical characterization (transmission, reflection spectra in UV - mid IR range);
-fluorescence spectroscopy and time-resolved fluorescence spectroscopy;
-Raman spectroscopy;
-FTIR spectroscopy;
-SEM analysis (together with EDS, WDS and FIB facilities);
-AFM analysis;
-PVD facilities;
-XPS analysis;
-adsorption analyzer for measuring surface area, pore size, and pore volume of porous materials. |
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Relevant publications
(3 max.) |
| 2.E. Białek, et al. Influence of anodization temperature on geometrical and optical properties of porous anodic alumina(PAA)-based photonic structures. Materials 2020, 13 (14), 3185. |
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| 1.E. Białek, et al. Charge density — versus time — controlled pulse anodization in the production of PAA-based DBRs for MIR spectral region, Energies 2021, 14 (16), 5149 |
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| 3.M. Norek, et al. Plasmonic enhancement of UV emission from ZnO thin films induced by Al nano-concave arrays. Applied Surface Science 384, 2016, 18-26 |
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Projects
(2 max.) |
| 1.National Science Centre Poland (Opus 18, project no. 2019/35/B/ST5/01025): "Novel porous photonic materials with tunable stop band in VIS-MIR spectral region" |
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| 2.National Science Centre Poland (Opus 19, project no. 2020/37/B/ST5/01674): "Study of synergistic effects between collective and individual amplifying modes in one optical system - towards efficient ZnO-based UV light emitters" |
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