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Abstrakty
Titanium compounds in view of their physicochemical properties constitute interesting materials applied in chemical synthesis. They are used for preparation of antifungal agents as well as for production of self-cleaning coatings. Moreover, mentioned inorganic compounds are characterized by a capability of neutralizing of unpleasant odor. Those all characteristics make these substances useful in many fields. In the framework of presented research series of polymer materials modified with titanium and titanium oxide have been obtained by means of photopolymerization. In the further step, studies on such synthesized materials have been conducted with particular emphasis on determining a mechanical properties and wettability. Hardness of prepared polymers have been tested by means of Shore durometer. Based on the research it can be concluded that addition of titanium compounds to the polymer matrix resulted in the improvement of mechanical properties as well as in an increase of hydrophobicity. It is worth mentioning that it is possible to manipulate properties of the obtained compositions by the introduction of an appropriate amount of additive into their matrices.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
1659--1672
Opis fizyczny
Bibliogr. 11 poz., rys., tab., wykr.
Twórcy
autor
- Institute of Inorganic Chemistry and Technology, Warszawska 24 St. 31-155 Cracow, Ph.: 628-27-23
autor
- Institute of Inorganic Chemistry and Technology, Warszawska 24 St. 31-155 Cracow, Ph.: 628-27-23
autor
- Department of Chemistry and Technology of Polymers, Warszawska 24 St. 31-155 Cracow, Cracow University of Technology, Ph.: 628-25-72
Bibliografia
- Bhattarai N., Gunn J., Zhang M. (2010). Chitosan-based hydrogels for controlled, localized drug delivery. Advanced Drug Delivery Reviews. 62, 83-99.
- Chen X., Mao S.S. (2007). Titanium Dioxide Nanomaterials: Synthesis, Properties, Modifications, and Applications. Chemical reviews. 107 (7), 2891-2959.
- Chuang L., Luo C., Yang S. (2011). The structure and mechanical properties of thick rutile-TiO2 films using different coating treatments. International Journal of Biological Macromolecules. 258, 297-303.
- Guiseppi-Elie A. (2010). Electroconductive hydrogels: Synthesis, characterization and biomedical applications. Biomaterials. 31, 2701-2716.
- Jayakumara R., Ramachandran R., Divyarani V.V., Chennazhi K.P., Tamura H., Nair S.V. (2011). Fabrication of chitin-chitosan/nano TiO2 - composite scaffolds for tissue engineering applications, International Journal of Biological Macromolecules. 48, 336-344.
- Koenig G., Ozcelik H., Haesler L., Cihova M., Ciftci S., Dupret-Bories A., Debry C., Stelzle M., Lavalle P., Vrana N.E. (2016). Cell-laden hydrogel/titanium microhybrids: Site-specific cel delivery to metallic implants for improved integration. Acta Biomaterialia. 33, 301-310.
- Mierzwa M. (2013). Versitale applicatioons of titanium including the medical aspects. Management Systems in Production Engineering. 4 (12), 15-19.
- Risbud M., Ringe J., Bhonde R., Sittinger M. (2001). In-vitro expression of cartilage specific markers by chondrocytes on a biocompatible hydrogel: implications for engineering cartilage tissue. Cell Transplantation. 10, 755-763.
- Struszczyk M.H. (2002). Chitin and chitosan. Part 1 Properties and production. Polimery. 47, 5, 316-325.
- Temenoff J.S., Mikos A.G. (2000). Review: tissue engineering for regeneration of articular cartilage. Biomaterials. 21, 431-440.
- Zazakowny K., Lewandowska-Łańcucka J., Mastalska-Popławska J., Kamiński K., Kusior A., Radecka M., Nowakowska M. (2016). Biopolymeric hydrogels-nanostructured TiO2 hybrid materials as potential injectable scaffolds for bone regeneration. Colloids and Surface B: Biointerfaces. 148, 607-614.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-213db2f8-4250-4152-91da-8fef6e4792c0