dr inż. Magdalena Diak


position: researcher
email: mdiak@iopan.pl

home   laboratory


Research Interests

Books Chapters

Awards

Publications

  1. Sivasamy, P.; Diak, M.; Winogradow, A.; Bange, H. W.; Borecka, M.; Makuch, P.; Koziorowska-Makuch, K.; Kuliński, K.; Mackiewicz, A.; Szymczycha, B., Spatial and seasonal variability of excess dinitrogen gas in the Baltic Sea. Frontiers in Marine Science 2025, 12, 1455803.
  2. Diak, M., Flak, D., Jarek, M., Przysiecka, Ł. and Nowaczyk, G., 2025. Aqueous phase transfer of near-infrared ZnCuInS2/ZnS quantum dots: Synthesis and characterization. Biomaterials Advances, 166, p.214083
  3. Matciak, M., Misiewicz, M.M., Szymczycha, B., Idczak, J., Tęgowski, J. and Diak, M., 2024. Pockmarks and associated fresh submarine groundwater discharge in the seafloor of Puck Bay, southern Baltic Sea. Science of The Total Environment, p.173617.
  4. von Ahn, C.M.E., Dellwig, O., Szymczycha, B., Kotwicki, L., Rooze, J., Endler, R., Escher, P., Schmiedinger, I., Sültenfuß, J., Diak, M. and Gehre, M., 2024. Submarine groundwater discharge into a semi-enclosed coastal bay of the southern Baltic Sea: A multi-method approach. Oceanologia, 66(1), pp.111-138.
  5. Szymczycha B., Böttcher M.E., Diak M., Koziorowska-Makuch K., Kuliński K., Makuch P., von Ahn C.M.E., Winogradow A., 2023. The benthic-pelagic coupling affects the surface water carbonate system above groundwater-charged coastal sediments. Frontiers in Marine Science, DOI: 10.3389/fmars.2023.1218245
  6. Diak M., Böttcher M.E., Ehlert von Ahn C.M., Hong W-L., Kędra M., Kotwicki L., Koziorowska-Makuch K., Kuliński K., Lepland A., Makuch P., Sen A., Winogradow A., Silberberger M.J., Szymczycha B., 2023. Permafrost and groundwater interaction: current state and future perspective. Front. Earth Sci. 11:1254309.
  7. Jagielski, J., Przysiecka, Ł., Flak, D., Diak, M., Pietralik-Molińska, Z., Kozak, M., Jurga, S. and Nowaczyk, G., 2021. Comprehensive and comparative studies on nanocytotoxicity of glyceryl monooleate-and phytantriol-based lipid liquid crystalline nanoparticles. Journal of Nanobiotechnology, 19(1), p.168.
  8. A. Mikołajczyk, A. Gajewicz, E. Mulkiewicz, B. Rasulev, M. Marchelek, M. Diak, S. Hirano, A. Zaleska-Medynska, and T. Puzyn. Nano-QSAR modeling for ecosafe design of heterogeneous TiO2-based nano-photocatalysts, Environmental Science: Nano 5, no. 5 (2018): 1150-1160.
  9. M. P. Kobylański, P. Mazierski, A. Malankowska, M. Kozak, M. Diak, M. J. Winiarski, T. Klimczuk, W. Lisowski, G. Nowaczyk, and A. Zaleska-Medynska. TiO2CoxOy composite nanotube arrays via one step electrochemical anodization for visible light–induced photocatalytic reaction, Surfaces and Interfaces 12 (2018): 179-189.
  10. J. F. Gomes, I. Leal, K. Bednarczyk, M. Gmurek, M. Stelmachowski, M.Diak, M. E. Quinta-Ferreira, R. Costa, R.M. Quinta-Ferreira, R. C. Martins, Photocatalytic ozonation using doped TiO2 catalysts for the removal of parabens in water, Science of The Total Environment 609 (2017): 329-340.
  11. P. Mazierski, A. Malankowska, M. Kobylański, M. Diak, M. Kozak, M. J. Winiarski, T. Klimczuk, W. Lisowski, G. Nowaczyk, A. Zaleska-Medynska, Photocatalytically Active TiO2/Ag2O Nanotube Arrays Interlaced with Silver Nanoparticles Obtained from the One-Step Anodic Oxidation of Ti–Ag Alloys, ACS Catalysis 7.4 (2017): 2753-2764, DOI: 10.1021/acscatal.7b00056.
  12. G. Ewelina, M. Diak, T. Klimczuk, W. Lisowski, A. Zaleska-Medyńska, Novel decahedral TiO2 photocatalysts loaded with Ru or Rh NPs: Insight into the mechanism, Journal of Molecular Catalysis: A, 434 (2017),154-166.
  13. M. Diak, M. Klein, T. Klimczuk, W. Lisowski, H. Remita, A. Zaleska-Medynska, E. Grabowska, Photoactivity of decahedral TiO2 loaded with bimetallic nanoparticles: Degradation pathway of phenol-1-13C and hydroxyl radical formation, Applied Catalysis B: Environmental 200 (2017): 56-71, DOI: 10.1016/j.apcatb.2016.06.067.
  14. A. Zaleska-Medynska, M. Marchelek, M. Diak, E. Grabowska, Noble metal-based bimetallic nanoparticles: the effect of the structure on the optical, catalytic and photocatalytic properties, Advances in Colloid and Interface Science 229 (2016): 80-107, DOI: 10.1016/j.cis.2015.12.008.
  15. M. Diak, E. Grabowska, A. Zaleska, Synthesis, characterization and photocatalytic activity of noble metal-modified TiO2 nanosheets with exposed {001} facets, Applied Surface Science 347 (2015): 275-285, DOI:10.1016/j.apsusc.2015.04.103.
  16. M. Stelmachowski, M. Marchwicka, E. Grabowska, M. Diak, A. Zaleska, The Photocatalytic Conversion of (Biodiesel Derived) Glycerol to Hydrogen - A Short Review and Preliminary Experimental Results Part 2: Photocatalytic Conversion of Glycerol to Hydrogen in Batch and Semi-batch Laboratory Reactors, Journal of Advanced Oxidation Technologies 17.2 (2014): 179-186, ISSN 1203-8407.
  17. M. Stelmachowski, M. Marchwicka, E. Grabowska, M. Diak, A. Zaleska, The Photocatalytic Conversion of (Biodiesel Derived) Glycerol to Hydrogen - A Short Review and Preliminary Experimental Results Part 1: A Review, Journal of Advanced Oxidation Technologies 17.2 (2014): 167-178, ISSN 1203-8407.

Projects

  1. GLOB – Nitrogen gain and loss in changing coastal lagoon ecosystems of the Baltic Sea – Kierownik
  2. SecuCoast - Security and management of Coastal groundwater resources and marine ecosystem services
  3. BSNCN - Baltic Sea Nitrogen Cycle Network https://balticnitrogen.com/
  4. ERGOM - Numerical modeling of biogeochemical cycles in the Baltic Sea – Kierownik – Narodowe Centrum Nauki (nr rej.: 2021/05/X/ST6/00898), Polska;
  5. ArcticSGD - Submarine Groundwater Discharge in a Changing Arctic: Scale and Biogeochemical Impact http://arcticsdg.iopan.pl/en/home
  6. IDEAL - Investigation of seasonal variability of the water column and sediment DEnitrificAtion and anammox in the BaLtic Sea http://www.iopan.gda.pl/projects/Ideal/index.html