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Laboratory of Polymers & Biomaterials

Institute of Fundamental Technological Research

  • 1 Oliwia Jeznach as a laureate of the Kosciuszko Foundation scholarship

    It is our pleasure to inform you that our team member, Mrs. Oliwia Jeznach has become one of the laureate of scholarship granted by the Kosciuszko Foundation. Congratulations Oliwia!
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  • 2 Professor dr hab. Andrzej Ziabicki

    We announce with very deep regret that on March 14th, 2019 left us our great Master and Teacher - Professor dr hab. Andrzej Ziabicki.
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  • 3 New internschip students in our laboratory!

    As every year new internship students will join our research team! To get know who will join us this summer please see in the link below...
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  • 4 Polish-Israeli Conference on Electrospinning and Tissue Engineering

    It is our great pleasure to announce the 1st Polish-Israeli Conference on Electrospinning and Tissue Engineering (PICETE 2018), which will be held on 4-5th October 2018 in Warsaw, Poland, at the Institute of Fundamental Technological Research, Polish Academy of Sciences.Kindly visit the PICETE2018 conference website.
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  • 5 New OPUS and PRELUDIUM grant in our laboratory!

    We would like to inform that National Centre of Science granted the project of our laboratory leader, prof. PaweĊ‚ Sajkiewicz and our colleague, Piotr Denis, M.Sc., in OPUS and PRELUDIUM program, respectively. Both, projects were subbmited in the ST8 category - Process and production engineering. Congratulations for the project leaders!
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Our recent activity is focused on:

1. Electrospinning of nano- and submicron polymeric fibers for biomedical applications (biodegradable scaffolds).

2. Experimental investigations of polymer structure and superstructure, including electrospun nanofibers as a function of formation (electrospinning) conditions.

3. Optimization of structure/properties of biodegradable polymeric scaffolds for tissue engineering applications.

4. Investigations of biodegradable scaffold funcionality in vitro conditions.

5. Electrospun nanofiber-based drug delivery systems.

6. Injectable hybrid hydrogels filled with nanofibers for regeneration of central nervous system (CNS)

7. Investigations of polymer crystallization kinetics under various external conditions:

- nonisothermal crystallization at ultra fast cooling rates, 106 K/s

- crystallization under geometrical confinement in the core part of electrospun core-shell fibers.

COPYRIGT Laboratory of Polymers and Biomaterials IPPT PAN FREE JOOMLA TEMPLATES