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Syryanyy Y.♦, Zając M.♦, Guziewicz E.♦, Wozniak W.♦, Melikhov Y., Chernyshova M.♦, Ratajczak R.♦, Demchenko I.N.♦, Polarized dependence of soft X-ray absorption near edge structure of ZnO films implanted by Yb,
Materials Science in Semiconductor Processing, ISSN: 1369-8001, DOI: 10.1016/j.mssp.2022.106609, Vol.144, pp.106609-1-8, 2022Streszczenie: Virgin and Yb-implanted epitaxial ZnO films grown using atomic layer deposition (ALD) were investigated by X-ray absorption spectroscopy (XAS). XAS study revealed a strong polarization dependence of films determined by the orientation of the polarization vector of the synchrotron radiation to the sample surface. It also indicated that the implantation and subsequent annealing have an important influence on the native point defect complexes in the ZnO. Comparison of experimental spectra with the modelled ones, which are computed based on the linear combination of model spectra corresponding to the selected point defects and their complexes, confirmed the presence of donor-acceptor complexes (mVZn - nVO, m = 1,4; n = 1,2) in the samples under study. The mechanism of vacancy complexes formation is unclear as it takes place under non-equilibrium conditions, for which any theoretical method has not been well established. Exploring the 3 d → 4 f absorption, it was found that oxidation state of Yb in ZnO is 3+, which is consistent with the XPS findings and previously conducted Resonant Photoemission Spectroscopy (RPES) investigations. The inversion of the polarization dependence for samples with different Yb fluences visible in Yb M5 spectra can be associated with a tilt of the oxygen pseudo octahedra or/and with their distortion. The analysis of the presented data suggests that the donor-acceptor complexes are present both in as grown and implanted films and may influence their electrical properties. This suggestion was confirmed by previous Hall measurements showing that the resistivity of annealed ZnO:Yb film with a fluence of 5e15 ions/cm2 decreases by about one order compared to the one with a fluence of 5e14 ions/cm2. Afiliacje autorów:
Syryanyy Y. | - | Institute of Physics, Polish Academy of Sciences (PL) | Zając M. | - | Warsaw University of Life Sciences (PL) | Guziewicz E. | - | Institute of Physics, Polish Academy of Sciences (PL) | Wozniak W. | - | Institute of Physics, Polish Academy of Sciences (PL) | Melikhov Y. | - | IPPT PAN | Chernyshova M. | - | Institute of Plasma Physics and Laser Microfusion (PL) | Ratajczak R. | - | National Centre for Nuclear Research (PL) | Demchenko I.N. | - | Institute of Physics, Polish Academy of Sciences (PL) |
| | 70p. |
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Skłodowska K.♦, Dębski P.R.♦, Michalski J.A.♦, Korczyk P.M., Dolata M.♦, Zając M.♦, Jakiela S.♦, Simultaneous Measurement of Viscosity and Optical Density of Bacterial Growth and Death in a Microdroplet,
Micromachines, ISSN: 2072-666X, DOI: 10.3390/mi9050251, Vol.9, No.5, pp.1-13, 2018Streszczenie: Herein, we describe a novel method for the assessment of droplet viscosity moving inside microfluidic channels. The method allows for the monitoring of the rate of the continuous growth of bacterial culture. It is based on the analysis of the hydrodynamic resistance of a droplet that is present in a microfluidic channel, which affects its motion. As a result, we were able to observe and quantify the change in the viscosity of the dispersed phase that is caused by the increasing population of interacting bacteria inside a size-limited system. The technique allows for finding the correlation between the viscosity of the medium with a bacterial culture and its optical density. These features, together with the high precision of the measurement, make our viscometer a promising tool for various experiments in the field of analytical chemistry and microbiology, where the rigorous control of the conditions of the reaction and the monitoring of the size of bacterial culture are vital. Słowa kluczowe: droplet microfluidics, cell growth, viscosity, rheology, Escherichia coli Afiliacje autorów:
Skłodowska K. | - | Warsaw University of Life Sciences (PL) | Dębski P.R. | - | Warsaw University of Life Sciences (PL) | Michalski J.A. | - | Politechnika Warszawska (PL) | Korczyk P.M. | - | IPPT PAN | Dolata M. | - | Warsaw University of Life Sciences (PL) | Zając M. | - | Warsaw University of Life Sciences (PL) | Jakiela S. | - | Institute of Physical Chemistry, Polish Academy of Sciences (PL) |
| | 30p. |