Selective thermal ablation of cancer cells with ferromagnetic nanocontainers

Stały URI zbioruhttp://hdl.handle.net/11652/5397

CONTENTS
1. Selective thermal ablation of cancer cells by ferromagnetic containers Kołaciński Z., Frączyk J., Majsterek I., Kamiński Z., Mościcki A., Przybyłowska-Sygut K., Raniszewski G., Szymański Ł., Pietrzak Ł., Wiak S. ........................................................................................ 7
2. Synthesis of carbon ferromagnetic filled nanocontainers using CVD technique Pietrzak Ł., Wąs Ł., Wyczechowski M. ........................................................................................ 15
3. Natural ceramic nanoparticles ‒ layered aluminosilicates as an active phase of polymer nanocomposites and their potential application in medicine Stodolak-Zych E., Dzierzkowska E., Rapacz-Kmita A. ........................................................................................ 23
4. Mathematical Model of Power Losses with Regard to Magnetic Fluid Hyperthermia Treatment Miaskowski A. ........................................................................................ 32
5. New strategies targeting the unfolded protein response (PERK signaling) for cancer treatment Pytel D., Szulc Z. M., Mucha B., Majsterek I., Diehl J. A. ........................................................................................ 41
6. Functionalization of carbon nanomaterials Mitura K.A., Szczypiński M. M., Korn Ł., Czerwińska E., Kolesińska B. ........................................................................................ 47

Przeglądaj

Filtry

20181

Ustawienia

Autorsearch.filters.applied.operator.equals: search.filters.author.Dzierzkowska, E.Tematsearch.filters.applied.operator.equals: search.filters.subject.nanocząstki

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  • Pozycja
    Natural ceramic nanoparticles ‒ layered aluminosilicates as an active phase of polymer nanocomposites and their potential application in medicine
    (Wydawnictwo Politechniki Łodzkiej, 2018-11-23) Stodolak-Zych, E.; Dzierzkowska, E.; Rapacz-Kmita, A.
    "Developing knowledge in the field of nanotechnology and its potential medical applications in many cases may provide solutions that both patients and doctors expect. However, one should be aware that the application of nanotechnology entails the need to answer a number of bothering questions about the safety of using nanoparticles as well as nanomaterials based on them. The excess surface energy of materials at the nanometer scale, resulting from the strongly developed surface, can be used as a carrier of drugs, proteins, e.g. enzymes or antigens. Particularly interesting here are the naturally occurring layered aluminosilicates (e.g. smectites), whose variety of forms, availability, ease of extraction, as well as the repetition of purification and the possibility of chemical modification, allow the use as stand-alone nanoparticles, but also as fillers in the polymeric phase. The paper presents the possibilities of using aluminosilicate particles based on montmorillonite (MMT) and kaolinite (K) in biomedical applications."