Martyna Barylak
West Pomeranian University of Technology
6 Papers
79 Citations
Martyna Barylak is an academic researcher from West Pomeranian University of Technology. The author has contributed to research in topics: Mesoporous silica & Adsorption. The author has an hindex of 6, co-authored 6 publications.
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Papers
Application of Carbonized Metal–Organic Framework as Efficient Adsorbent of Cationic Dye
TL;DR: In this article, the adsorption kinetics of rhodamine B onto metal organic framework containing cobalt (CoOF) were investigated with an as-prepared material was carbonized and purified prior to testing.
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Comparative in vitro study of single and four layer graphene oxide nanoflakes - Cytotoxicity and cellular uptake.
Magdalena Perużyńska,Krzysztof Cendrowski,Martyna Barylak,Marta Tkacz,Katarzyna Piotrowska,Mateusz Kurzawski,Ewa Mijowska,Marek Drozdzik +7 more
TL;DR: The first findings undeniably show that the nanomaterials' functionalization has a considerable impact on their behavior in a biological environment and emphasize the role of number of layer and functionalization in GO toxicological characteristics and may provide helpful information for their further biomedical applications.
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Investigating the Interaction Between Streptomyces sp. and Titania/Silica Nanospheres
TL;DR: In this article, the effect of nonactivated and UV light-activated titania/silica nanospheres on an environmental Streptomyces strain was investigated, and it was found that the nanosphere did not have bactericidal properties in the used dose.
19
Sandwich-like mesoporous silica flakes for anticancer drug transport-Synthesis, characterization and kinetics release study.
TL;DR: Data obtained from long term studies showed that the system can serve as an anticancer drug carrier system, since a significant amount of methotrexate was loaded to the material and released.
17
Study on size effect of the silica nanospheres with solid core and mesoporous shell on cellular uptake.
Magdalena Perużyńska,Krzysztof Cendrowski,Martyna Barylak,Dorota Rogińska,Maciej Tarnowski,Marta Tkacz,Mateusz Kurzawski,Bogusław Machaliński,Ewa Mijowska,Marek Drozdzik +9 more
TL;DR: In this paper, the effect of different diameters (50 nm, 70 nm, 90 nm, 110 nm and 140 nm) of silica nanospheres with a solid core and mesoporous shell on cellular internalization in mouse fibroblast cells was evaluated.