{"id":53,"date":"2025-12-03T10:06:05","date_gmt":"2025-12-03T10:06:05","guid":{"rendered":"https:\/\/nanobiosensa.put.poznan.pl\/?page_id=53"},"modified":"2026-04-28T17:05:45","modified_gmt":"2026-04-28T17:05:45","slug":"publikacje","status":"publish","type":"page","link":"https:\/\/nanobiosensa.put.poznan.pl\/?page_id=53","title":{"rendered":"Publications"},"content":{"rendered":"\n

2026<\/h3>\n\n\n\n
    \n
  1. M. Kotula, F. Roth, P. Simon, W. Carrillo-Cabrera, D. Potorochin, A. Makarova, R. Galli, E. Brendler, V. M. Gun’ko, I. Iatsunskyi, W. Kuku\u0142ka, A. Marty\u0142a, R. Przekop, M. Kuznowicz, P. Krawczyk, A. Szczurek, D. Vyalikh, A. Springer, T. Jesionowski, H. Ehrlich,
    Nanoarchitectonics of centimeter-sized 3D multiphase carbon constructs created via carbonization of the sustainable biomaterial spongin at 2200\u00a0\u00b0C<\/strong>,
    Materials Today Advances<\/em>, 2026, 30, 100780
    <\/li>\n<\/ol>\n\n\n\n
    \n\n\n\n

    2025<\/h3>\n\n\n\n
      \n
    1. A. J\u0119drzak, T. Jesionowski,
      Enhanced 3D-printed Matrix for Electrocatalytic Detection: A Practical and Simple Electrochemical Platform<\/strong>,
      Electrocatalysis<\/em>, 2025, 16(1), 141\u2013152.<\/li>\n\n\n\n
    2. A. J\u0119drzak, M. Kuznowicz, K. Hoffa, T. Jesionowski,
      High detectable and low sample volume portable cholesterol biosensor based on PAMAM dendrimers grafted to bioinspired polynorepinephrine nanomaterials<\/strong>,
      Journal of Applied Electrochemistry<\/em>, 2025, 55(6), 1519\u20131532.<\/li>\n\n\n\n
    3. J. Musia\u0142, A. J\u0119drzak, R. Bielas, A. Skumiel,
      Magnetothermal Energy Conversion of Polydopamine-Coated Iron Oxide Ferrogels Under High-Frequency Rotating Magnetic Fields<\/strong>,
      Energies<\/em>, 2025, 18(16), 4291.<\/li>\n<\/ol>\n\n\n\n
      \n\n\n\n

      2024<\/h3>\n\n\n\n
        \n
      1. O. Ivashchenko, A. J\u0119drzak, A. Lys, K. Za\u0142\u0119ski, S. R\u00f3\u017ca\u0144ska, J. R\u00f3\u017ca\u0144ski, E. Coy, I. Iatsunskyi,
        Ag, Cu, and Se-doped ultrasmall iron oxide colloidal gels: Revealing potential for photo\/electrochemical applications<\/strong>,
        Applied Surface Science<\/em>, 2024, 673, 160916.<\/li>\n\n\n\n
      2. A. J\u0119drzak, M. Kuznowicz, T. Jesionowski,
        Mobile-assisted diagnostic biosensor for point-of-care glucose detection in real human samples with rapid response and long-live stability<\/strong>,
        Journal of Applied Electrochemistry<\/em>, 2024, 54(1), 163\u2013174.<\/li>\n<\/ol>\n\n\n\n
        \n\n\n\n

        2023<\/h3>\n\n\n\n
          \n
        1. M. Kuznowicz, T. R\u0119bi\u015b, A. J\u0119drzak, G. Nowaczyk, T. Jesionowski,
          Facile Fabrication of a Selective Poly(caffeic acid)@MWCNT\u2013Ni(OH)\u2082 Hybrid Nanomaterial and Its Application as a Non-Enzymatic Glucose Sensor<\/strong>,
          Chemosensors<\/em>, 2023, 11(8), 452.<\/li>\n\n\n\n
        2. T. Anjum, N. Hussain, Hafsa, H.M.N. Iqbal, A. J\u0119drzak, T. Jesionowski, M. Bilal,
          Magnetic nanomaterials as drug delivery vehicles and therapeutic constructs to treat cancer<\/strong>,
          Journal of Drug Delivery Science and Technology<\/em>, 2023, 80, 104103.<\/li>\n\n\n\n
        3. M. Kuznowicz, A. J\u0119drzak, T. Jesionowski,
          Nature-Inspired Biomolecular Corona Based on Poly(caffeic acid) as a Low Potential and Time-Stable Glucose Biosensor<\/strong>,
          Molecules<\/em>, 2023, 28(21), 7281.<\/li>\n<\/ol>\n\n\n\n
          \n\n\n\n

          2022<\/h3>\n\n\n\n
            \n
          1. M. Kuznowicz, T. R\u0119bi\u015b, A. J\u0119drzak, G. Nowaczyk, M. Szybowicz, T. Jesionowski,
            Glucose determination using amperometric non-enzymatic sensor based on electroactive poly(caffeic acid)@MWCNT decorated with CuO nanoparticles<\/strong>,
            Microchimica Acta<\/em>, 2022, 159(4), 159.<\/li>\n\n\n\n
          2. A. J\u0119drzak, M. Kuznowicz, T. R\u0119bi\u015b, T. Jesionowski,
            Portable glucose biosensor based on polynorepinephrine@magnetite nanomaterial integrated with a smartphone analyzer for point-of-care application<\/strong>,
            Bioelectrochemistry<\/em>, 2022, 145, 108071.<\/li>\n\n\n\n
          3. A. J\u00f3zefczak, K.J. Opieli\u0144ski, R. Bielas, P. Pruchnicki, M. Bu\u0142kowski, A. J\u0119drzak, I. Safarik, P. Kopcansky,
            Ultrasound transmission tomography-guided heating with nanoparticles<\/strong>,
            Measurement<\/em>, 2022, 197, 111345.<\/li>\n<\/ol>\n\n\n\n
            \n\n\n\n

            2021<\/h3>\n\n\n\n
              \n
            1. M. Kuznowicz, A. J\u0119drzak, T. R\u0119bi\u015b, T. Jesionowski,
              Biomimetic magnetite\/polydopamine\/\u03b2-cyclodextrins nanocomposite for long-term glucose measurements<\/strong>,
              Biochemical Engineering Journal<\/em>, 2021, 174, 108127.<\/li>\n\n\n\n
            2. T. R\u0119bi\u015b, M. Kuznowicz, A. J\u0119drzak, G. Milczarek, T. Jesionowski,
              Design and fabrication of low potential NADH-sensor based on poly(caffeic acid)@multi-walled carbon nanotubes<\/strong>,
              Electrochimica Acta<\/em>, 2021, 386, 138384.<\/li>\n\n\n\n
            3. M. Kuznowicz, A. J\u0119drzak, A. Leda, T. R\u0119bi\u015b, T. Jesionowski,
              Measurements of working parameters of external mediators for biodetectors based on the polydopamine@magnetite nanoparticles<\/strong>,
              Measurement<\/em>, 2021, 184, 109950.<\/li>\n<\/ol>\n\n\n\n
              \n\n\n\n

              2020<\/h3>\n\n\n\n
                \n
              1. A. J\u0119drzak, B.F. Grze\u015bkowiak, K. Golba, E. Coy, K. Synoradzki, S. Jurga, T. Jesionowski, R. Mr\u00f3wczy\u0144ski,
                Magnetite Nanoparticles and Spheres for Chemo- and Photothermal Therapy of Hepatocellular Carcinoma in vitro<\/strong>,
                International Journal of Nanomedicine<\/em>, 2020, 15, 7923-7936.<\/li>\n<\/ol>\n\n\n\n
                \n\n\n\n

                2019<\/h3>\n\n\n\n
                  \n
                1. A. J\u0119drzak, T. R\u0119bi\u015b, M. Kuznowicz, A. Ko\u0142odziejczak-Radzimska, J. Zdarta, A. Piasecki, T. Jesionowski,
                  Advanced Ga\u2082O\u2083\/Lignin and ZrO\u2082\/Lignin Hybrid Microplatforms for Glucose Oxidase Immobilization: Evaluation of Biosensing Properties by Catalytic Glucose Oxidation<\/strong>,
                  Catalysts<\/em>, 2019, 9(12), 1044.<\/li>\n\n\n\n
                2. A. J\u0119drzak, T. R\u0119bi\u015b, M. Kuznowicz, T. Jesionowski,
                  Bio-inspired magnetite\/lignin\/polydopamine\u2013glucose oxidase biosensing nanoplatform. From synthesis, via sensing assays to comparison with other glucose testing techniques<\/strong>,
                  International Journal of Biological Macromolecules<\/em>, 2019, 127, 677\u2013682.<\/li>\n\n\n\n
                3. A. J\u0119drzak, B.F. Grze\u015bkowiak, E. Coy, J. Wojnarowicz, K. Szutkowski, S. Jurga, T. Jesionowski, R. Mr\u00f3wczy\u0144ski,
                  Dendrimer based theranostic nanostructures for combined chemo- and photothermal therapy of liver cancer cells in vitro<\/strong>,
                  Colloids and Surfaces B: Biointerfaces<\/em>, 2019, 173, 698\u2013708.<\/li>\n<\/ol>\n\n\n\n
                  \n\n\n\n

                  2018<\/h3>\n\n\n\n
                    \n
                  1. A. J\u0119drzak, T. R\u0119bi\u015b, \u0141. Klapiszewski, J. Zdarta, G. Milczarek, T. Jesionowski,
                    Carbon paste electrode based on functional GOx\/silica\u2013lignin system to prepare an amperometric glucose biosensor<\/strong>,
                    Sensors and Actuators B: Chemical<\/em>, 2018, 256, 176\u2013185.<\/li>\n\n\n\n
                  2. J. Zdarta, K. Antecka, A. J\u0119drzak, K. Synoradzki, M. \u0141uczak, T. Jesionowski,
                    Biopolymers conjugated with magnetite as support materials for trypsin immobilization and protein digestion<\/strong>,
                    Colloids and Surfaces B: Biointerfaces<\/em>, 2018, 169, 118\u2013125.<\/li>\n\n\n\n
                  3. R. Mr\u00f3wczy\u0144ski, A. J\u0119drzak, K. Szutkowski, B.F. Grze\u015bkowiak, E. Coy, R. Markiewicz, T. Jesionowski, S. Jurga,
                    Cyclodextrin-based magnetic nanoparticles for cancer therapy<\/strong>,
                    Nanomaterials<\/em>, 2018, 8(3).<\/li>\n\n\n\n
                  4. J. Zdarta, K. Antecka, A. J\u0119drzak, K. Synoradzki, M. \u0141uczak, T. Jesionowski,
                    Magnetic biocomposites as support for trypsin immobilization: application for protein digestion<\/strong>,
                    New Biotechnology<\/em>, 2018, 44 (Suppl.), S131\u2013S132.<\/li>\n\n\n\n
                  5. A. J\u0119drzak, T. R\u0119bi\u015b, M. Nowicki, K. Synoradzki, R. Mr\u00f3wczy\u0144ski, T. Jesionowski,
                    Polydopamine grafted on an advanced Fe\u2083O\u2084\/lignin hybrid material and its evaluation in biosensing<\/strong>,
                    Applied Surface Science<\/em>, 2018, 455, 455\u2013464.<\/li>\n\n\n\n
                  6. T. Jesionowski, K. Jankowska, A. J\u0119drzak, T.J. Szalaty, S. \u017b\u00f3\u0142towska-Aksamitowska, \u0141. Klapiszewski, A. Ko\u0142odziejczak-Radzimska, M. Stasiewicz, M. Wysokowski, J. Zdarta,
                    Zaawansowane funkcjonalne materia\u0142y wytwarzane z u\u017cyciem substancji pochodzenia naturalnego<\/strong>,
                    Przemys\u0142 Chemiczny<\/em>, 2018, 97(12), 2026\u20132036.<\/li>\n<\/ol>\n\n\n\n
                    \n\n\n\n

                    2017<\/h3>\n\n\n\n
                      \n
                    1. J. Zdarta, A. J\u0119drzak, \u0141. Klapiszewski, T. Jesionowski,
                      Immobilization of cellulase on a functional inorganic-organic hybrid support: stability and kinetic study<\/strong>,
                      Catalysts<\/em>, 2017, 7(12).<\/li>\n\n\n\n
                    2. J. Zdarta, \u0141. Klapiszewski, A. J\u0119drzak, M. Nowicki, D. Moszy\u0144ski, T. Jesionowski,
                      Lipase B from Candida antarctica Immobilized on a Silica-Lignin Matrix as a Stable and Reusable Biocatalytic System<\/strong>,
                      Catalysts<\/em>, 2017, 7(1), 1\u201321.<\/li>\n<\/ol>\n","protected":false},"excerpt":{"rendered":"

                      2026 2025 2024 2023 2022 2021 2020 2019 2018 2017<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_crdt_document":"{\"document\":\"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