Publications - Most Recent
  1. Insińska-Rak, M.; Sikorski, M.; Wolnicka-Glubisz, A. Riboflavin and its derivates as potential photosensitizers in the photodynamic treatment of skin cancers. Cells, 2023, 12, Article ID 2304.
  2. Golczak, A.; Prukała, D.; Sikorska, E.; Gierszewski, M.; Cherkas, V.; Kwiatek, D.; Kubiak, A.; Varma, N.; Pędziński, T.; Murphree, S.; Cibulka, R.; Mrówczyńska, L.; Kolanowski, J.L.; Sikorski, M. Tetramethylalloxazines as efficient singlet oxygen photosensitizers and potential redox-sensitive agents. Scientific Reports 2023, 13 (1), Article ID 13426. doi: 10.1038/s41598-023-40536-4.
  3. Buniowska, I.; Wronski, N.;, Insińska-Rak, M.; Sikorski, M.; Wolnicka-Glubisz, A. Tetraacetyl riboflavin derivative mediates caspase 3/7 activation via MAPK in A431 cells upon blue light influence. Photochem Photobiol. 2023, doi:10.1111/php.13806.
  4. Insińska-Rak, M.; Golczak, A.; Gierszewski, M.; Anwar, Z.; Cherkas, V.; Kwiatek, D.; Sikorska, E.; Khmelinskii, I.; Burdziński, G.; Cibulka, R.; Mrówczyńska, L.; Kolanowski, J.L.; Sikorski, M. 5-Deazaalloxazine as photosensitizer of singlet oxygen and potential redox-sensitive agent. Photochem. Photobiol. Sci. 2023 doi:10.1007/s43630-023-00401-9.
  5. Kubiak, A.; Wojcieszak, M.; Fuks, H.; Gabała, E.; Materna, K.; Sikorski, M.; Jesionowski, T. A novel rapid microwave crystallization of photocatalysts for practical utility in the removal of phenol derivatives. Ceramics International 2023, 49, 9104-9114.
  6. Kubiak, A.; Grzegórska, A.; Gabała, E.; Zembrzuska, J.; Szybowicz, M.; Fuks, H.; Szymczyk, A.; Zielińska-Jurek, A.; Sikorski, M.; Jesionowski, T. TiO2-C nanocomposite synthesized via facile surfactant-assisted method as a part of less energy-consuming LED-based photocatalytic system for environmental applications, J. Photochem. Photobiol. A: Chem., 2023, 437, Article ID 114428.
  7. Cubinak, M.; Varma, N.; Oeser, P.; Pokluda, A.; Pavlovska, T.; Cibulka, R.; Sikorski, M.; Tobrman, T. Tuning the photophysical properties of flavins by attaching an aryl moiety via direct C-C bond coupling. J. Org. Chem. 2023, 88, 218-229.
  8. Kubiak, A.; Varma, N.; Sikorski, M. Insight into the LED-assisted deposition of platinum nanoparticles on the titania surface: understanding the effect of LEDs, Scientific Reports, 2022, 12, Article ID 22572.
  9. Sikorska, E.; Nowak, P.; Pawlak-Lemańska, K.; Sikorski, M. Characterization and classification of direct and commercial strawberry beverages using absorbance-transmission and fluorescence excitation-emission matrix technique. Foods 2022, Article ID 2143.
  10. Brazevic, S.; Sikorski, M.; Sliwa, M.; Abe, J.; Rode, M. F.; Burdzinski, G. Cisoid-cis intermediate plays a crucial role in decolouration rate in photochromic reaction of 8H-pyranoquinazolines and 3H-naphthopyrans. Dyes Pigm. 2022, Article ID 110249.
  11. Golczak, A.; Insińska-Rak, M.; Davoudpour, A.; Hama Saeed, D.; Ménová, P.; Mojr, V.; Cibulka, R.; Khmelinskii, I.; Mrówczyńska, L.; Sikorski, M. Photophysical properties of alloxazine derivatives with extended aromaticity - potential redox-sensitive fluorescent probe. Spectrochim. Acta, Part A 2022, Article ID 120985.
  12. Sikorski, M.; Khmelinskii, I.; Sikorska, E., Spectral Properties of Flavins. In Flavin-Based Catalysis, Cibulka, R.; Fraaije, M., Eds. Wiley-VCH: 2021; pp 67-96.
  13. Pokluda, A.; Anwar, Z.; Boguschová, V.; Anusiewicz, I.; Skurski, P.; Sikorski, M.; Cibulka, R. Robust photocatalytic method using ethylene-bridged flavinium salts for the aerobic oxidation of unactivated benzylic substrates. Adv. Synth. Catal. 2021, 363, 4371-4379.
  14. Krakowiak, R.; Musial, J.; Frankowski, R.; Spychala, M.; Mielcarek, J.; Dobosz, B.; Krzyminiewski, R.; Sikorski, M.; Bendzinska-Berus, W.; Tykarska, E.; Blazejewski, R.; Zgoła-Grześkowiak, A.; Stanisz, B. J.; Mlynarczyk, D. T.; Goslinski, T. Phthalocyanine-Grafted Titania Nanoparticles for Photodegradation of Ibuprofen. Catalysts. 2020, 10, Article ID 1328.
  15. Insińska-Rak, M.; Prukała, D.; Golczak, A.; Fornal, E.; Sikorski, M., Riboflavin degradation products; combined photochemical and Mass Spectrometry approach. J. Photochem. Photobiol. A: Chem. 2020, Article ID 112837.
  16. Hassoun, A. M., I.; Schmidt, W.F.; Temiz, H.T.; Li, L.; Kim, H.-Y.; Nilsen, H.; Biancolillo, A.; Aït-Kaddour, A.; Sikorski, M.; Sikorska, E.; Grassi, S.; Cozzolino, D. Fraud in animal origin food products: Advances in emerging spectroscopic detection methods over the past five years. Foods 2020, Article ID 1069.
  17. Gawriołek, M.; Gawriołek, K.; Eliasz, W.; Czarnecka, B.; Paszynska, E.; Sikorski, M. How does the color of restorative material change during exposure to dietary liquids due to the acquisition of a discolored layer? Coatings 2020, Article ID 866.
  18. Brazevic, S.; Baranowski, M.; Sikorski, M.; Rode, M. F.; Burdzinski, G. Ultrafast dynamics of the transoid-cis isomer formed in photochromic reaction from 3H-naphthopyran. ChemPhysChem 2020, 21, 1402-1407.
  19. Sikorska, E.; Khmelinskii, I.; Sikorski, M., Fluorescence spectroscopy and imaging instruments for food quality evaluation. In Evaluation Technologies for Food Quality, Zhong, J.; Wang, X., Eds. 2019, Elsevier: 2019; pp 491-533.
  20. Zelenka, J.; Svobodová, E.; Tarábek, J.; Hoskovcová, I.; Boguschová, V.; Bailly, S.; Sikorski, M.; Roithová, J.; Cibulka, R. Combining Flavin Photocatalysis and Organocatalysis: Metal-Free Aerobic Oxidation of Unactivated Benzylic Substrates. Org. Lett. 2019, 21, 114-119.
  21. Stawicka, K.; Prukała, D.; Siodła, T.; Sikorski, M.; Ziolek, M. UV–vis spectroscopy combined with azastilbene probe as a tool for testing basicity of mesoporous silica modified with nitrogen compounds. Applied Catalysis A: General 2019, 570, 339-347.



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