Aleksandra Sobczak scite author profile

Aleksandra Sobczak

2Publications

24Citation Statements Received

61Citation Statements Given

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Affiliations

Warsaw University of Technology, Centrum Badań Molekularnych i Makromolekularnych Polskiej Akademii Nauk, Polish Academy of Sciences

Publications

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Hydrophilic–hydrophobic properties of SiOH‐loaded and modified polysiloxane microspheres and their interaction with γ‐globulin

Mizerska

Fortuniak

Pośpiech

et al. 2015

Polymers for Advanced Techs

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Adsorption of human γ-globulin on hydrophilic polysiloxane microspheres was investigated. The microspheres contained a large number of silanol groups, and their modified derivatives were enriched with a limited number of hydrophobic groups. Hydrophilic-hydrophobic properties of these particles were compared using Rose Bengal as a hydrophobic probe. Polysiloxane microspheres were modified by addition of hydrophobic isopropoxy side groups to polyhydromethylsiloxane, the precursor polymer of the hydrophilic microspheres. Hydrophilic particles were modified also by trimethylsilylation. These modifications allowed to control the hydrophilic-hydrophobic properties of the microspheres and modification of their ability for protein adsorption. In water suspension, the unmodified microspheres containing silanol groups showed no affinity to hydrophobic Rose Bengal dye. The unspecific adsorption of γ-globulin on these microspheres was at a much lower level than that on particles silylated with some amount of trimethylchlorosilane and trimethylethoxysilane. The presence of bulky hydrophobic isopropoxy groups attached to polyhydromethylsiloxane decreased the formation of silanol groups during the fabrication of particles. A moderate enhancement of protein affinity to these particles may be achieved in this way.

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Modification of PLA Scaffold Surface for Medical Applications

et al. 2021

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Materials used for medical applications (e.g., the cellular scaffold) should have not only the specific chemical composition, but the surface layer properties as well. For this reason, a method which enables an increase in the number of pores, wettability of the surface, and improvement the conditions of nutrient transportation into the membrane is being studied. The plasma of a dielectric barrier discharge was applied for the surface modification of polylactide obtained by dry or wet phase inversion. The plasma-modified surface was analyzed by contact angle measurements with water and diiodomethane. The surface free energy (SFE) was calculated by the Owens–Wendt method. The highest SFE and its polar component (67.6 mJ/m2 and 39.5 mJ/m2, respectively) were received when the process was conducted in an Ar + CO2 gas mixture with a discharge power of 20 W. The purpose of this research was to increase the wettability and porosity of the membrane’s surface. It can be concluded that the dielectric barrier discharge can effectively change the surface of the polylactide membranes, and that the structure of the modified membranes was not damaged during modification. The process of modification was easier for the membranes made by dry phase inversion. These materials had higher SFE values after the modification.

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