Aneta Kisielewska
University of Łódź
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Publication
Featured researches published by Aneta Kisielewska.
New Journal of Chemistry | 2014
Katarzyna Zawadzka; Kinga Kądzioła; Aleksandra Felczak; Natalia Wrońska; Ireneusz Piwoński; Aneta Kisielewska; Katarzyna Lisowska
Titanium dioxide coatings were prepared on Si wafers using the sol–gel method. Four different types of coatings with silver nanoparticles (AgNPs) were synthesized. The diameter and surface density of AgNPs were conditioned by the concentration of Ag+ ions in the initial solution, time and UV illumination source. The bactericidal activity of AgNPs on the titanium dioxide coatings against the S. aureus strain were calculated as the percentage of the inhibition of bacterial growth after 24 hour incubation of microorganisms at 37 °C on TiO2 coatings with AgNPs. Control samples were coated with titanium dioxide without AgNPs. We concluded that the titanium dioxide coatings modified with silver nanoparticles had a high antibacterial activity. Moreover, we demonstrated strong dependence between surface areas of AgNPs and inhibition of bacterial growth. The obtained results evidence that the surface area of AgNPs grown on titanium dioxide coatings is a major factor determining their antimicrobial potential.
RSC Advances | 2016
Kaja Spilarewicz-Stanek; Aneta Kisielewska; Joanna Ginter; Karolina Bałuszyńska; Ireneusz Piwoński
The goal of the presented investigation was to study the differences in the decoration of graphene sheets, having various amounts of oxygen containing functional groups, with silver nanoparticles (AgNPs). The reduction of graphehe oxide (GO) was performed with the use of ascorbic acid (AA), leading to partially-reduced graphene oxide (PRGO) and reduced graphene oxide (RGO). The reduction process was monitored and confirmed by Raman Spectroscopy and Fourier Transform – Infrared Spectroscopy (FT-IR). The level of oxygen functional groups in the respective types of graphene was controlled by the duration of the reduction reactions. One-step synthesis of silver nanoparticles (AgNPs) was performed with no additional reducing agents in dark conditions in situ, i.e. directly on the graphene sheets deposited on a silicon wafer. It was proved that the presence of oxygen moieties on the graphene surface provides reactive sites for the spontaneous chemical reduction of Ag+ ions. It was also demonstrated that the amount of oxygen moieties on the surface of graphene plays an important role in the nucleation and growth of AgNPs. Moreover, it was found that the number of AgNPs investigated by Scanning Electron Microscopy (SEM) and Atomic Force Microscopy (AFM) increases with the amount of oxygen moieties, while their size decreases. Finally, it was found that the intensity of Raman bands characteristic of graphene are strongly increased for samples with AgNPs, due to surface enhancement Raman scattering (SERS).
Circuit World | 2018
Piotr Firek; M. Cichomski; Michal Waskiewicz; Ireneusz Piwoński; Aneta Kisielewska
Purpose The purpose of this paper is to present possibility of fast and certain identification of bovine serum albumin (BSA) by means of ion-sensitive field effect transistor (ISFET) structures. Because BSA can cause allergic reactions in humans, it is one of reasons for development of sensitive sensors to detect residual BSA. BSA is commonly used in biochemistry and molecular biology in laboratory experiments. Therefore, to better understand the mechanism of signal transduction in simulated biological environment and to elucidate the role of adsorption of biomolecules in the generation of a signal at the interface with biological systems, the measurements of ISFET current response in the presence of BSA as a reference protein molecule were performed. Design/methodology/approach To fabricate transistors, silicon technology was used. The ISFET structures were coupled to specially designed double-side printed circuit board holder. After modification of the field effect transistor (FET) device with 3-aminopropyltriethoxysilane (APTES), a sensor with high sensitivity toward reference biomolecules was obtained. The current–voltage (I-V) characteristics of structures with and without gate modification were measured. Keithley SMU 236/237/238 measurement set was used. Deionized water solution and 0.05 per cent BSA were used. Findings In this research, a method of preparation of a biosensor based on a FET was developed. Sensitivity of APTES-modified FET device toward BSA as a biomolecule was investigated. I-V relationships of FET devices (with and without modification), being the effect of the interactions with the solution containing 0.05 per cent BSA, were measured and compared to the measurements performed for solutions without BSA. Originality value Compared to SiO2-containing ISFETs without modification or other different dielectrics, the application of APTES as the part of the membrane induced significant increase in their sensitivity to BSA.
Applied Surface Science | 2014
Kinga Kądzioła; Ireneusz Piwoński; Aneta Kisielewska; Dominik Szczukocki; Barbara Krawczyk; Jan Sielski
Applied Surface Science | 2011
Ireneusz Piwoński; Kinga Kądzioła; Aneta Kisielewska; Katarzyna Soliwoda; Marian Wolszczak; Katarzyna Lisowska; Natalia Wrońska; Aleksandra Felczak
Ceramics International | 2013
Ireneusz Piwoński; Katarzyna Soliwoda; Aneta Kisielewska; Renata Stanecka-Badura; Kinga Ka¸dzioła
Applied Surface Science | 2017
A. Busiakiewicz; Aneta Kisielewska; Ireneusz Piwoński; Damian Batory
Microporous and Mesoporous Materials | 2016
Joanna Ginter; Aneta Kisielewska; Kaja Spilarewicz-Stanek; M. Cichomski; Damian Batory; Ireneusz Piwoński
Sensors and Actuators B-chemical | 2016
Justyna Robak; Barbara Burnat; Andrzej Leniart; Aneta Kisielewska; Mariola Brycht; Sławomira Skrzypek
Applied Surface Science | 2016
Ireneusz Piwoński; Kaja Spilarewicz-Stanek; Aneta Kisielewska; Kinga Kądzioła; M. Cichomski; Joanna Ginter