Mikroskopie piezoelektrické odezvy (PFM) a Ramanova spektroskopie vybraných dielektrických materiálů

Název práce: Mikroskopie piezoelektrické odezvy (PFM) a Ramanova spektroskopie vybraných dielektrických materiálů Autor: Fedir Borodavka Ústav: Oddělení dielektrik, Fyzikální ústav AV ČR v.v.i., Na Slovance 2, 182 21, Praha 8, Česká Republika Školitel: Ing. Ivan Gregora, CSc. Školící pracoviště: Oddělení dielektrik, Fyzikální ústav AV ČR v.v.i., Na Slovance 2, 182 21, Praha 8, Česká Republika Konzultanti: RNDr. Stanislav Kamba, CSc. a RNDr. Vladimír Vorlíček, CSc. Abstrakt: Disertační práce je věnována detailnímu studiu dielektrických materiálů po- mocí Ramanovy spektroskopie a mikroskopie piezoelektrické odezvy. Vlastnosti fononů nově syntetizovaných monokrystalů hydrogenfosforitanu guany- lurey(1+) (GUHP) byly studovány pomocí Ramanovy spektroskopie. Na základě Ra- manovy spektroskopie byla navržena klasifikace vibračních módů A′ MIX, A′ TO a A′′ TO a byly také stanoveny jejich frekvence. Na základě Ramanových spekter bylo také charakterizováno chování fononů v kera- mice BiMnO3. Porovnání výsledků grupové analýzy struktury s naměřenými spektry prokázalo, že krystality v keramice mají centrosymetrickou strukturu C2/c, a nejsou tedy feroelektrické. Byly vyšetřovány mřížkové vibrační módy monokrystalu...Title: PFM and Raman spectroscopy of selected dielectric materials Author: Fedir Borodavka Institute: Department of Dielectrics, Institute of Physics of the Academy of Sciences, Na Slovance 2, 182 21, Prague 8, Czech Republic Supervisor: Ing. Ivan Gregora, CSc. Training institute: Department of Dielectrics, Institute of Physics of the Academy of Sciences, Na Slovance 2, 182 21, Prague 8, Czech Republic Consultants: RNDr. Stanislav Kamba, CSc. and RNDr. Vladimír Vorlíček, CSc. Abstract: The thesis is devoted to a detailed investigation of dielectric materials using Raman spectroscopy and PFM microscopy techniques. Phonon properties of a newly synthesized guanylurea(1+) hydrogen phosphite single crystals have been studied. A tentative assignment of the observed Raman peaks has been done and the sets of A′ MIX, A′ TO and A′′ TO mode frequencies have been determined. Phonon behaviour of BiMnO3 ceramics, obtained from Raman spectra, has been char- acterized. After comparing the factor group analysis with the Raman spectra it has been concluded that the material has a centrosymmetric C2/c structure and is not ferroelectric. Lattice modes of the complex La1/2Na1/2TiO3 single crystal have been investigated. We have numerically analysed the intensity behaviour of the sharp peak at 455 cm−1 on heating and...Matematicko-fyzikální fakultaFaculty of Mathematics and Physic

Tiling the Silicon for Added Functionality: PLD Growth of Highly Crystalline STO and PZT on Graphene Oxide-Buffered Silicon Surface

The application of two-dimensional (2D) materials has alleviated a number of challenges of traditional epitaxy and pushed forward the integration of dissimilar materials. Besides acting as a seed layer for van der Waals epitaxy, the 2D materials� being atom(s) thick�have also enabled wetting transparency in which the potential field of the substrate, although partially screened, is still capable of imposing epitaxial overgrowth. One of the crucial steps in this technology is the preservation of the quality of 2D materials during and after their transfer to a substrate of interest. In the present study, we show that by honing the achievements of traditional epitaxy and wet chemistry a hybrid approach can be devised that offers a unique perspective for the integration of functional oxides with a silicon platform. It is based on SrO-assisted deoxidation and controllable coverage of silicon surface with a layer(s) of spin-coated graphene oxide, thus simultaneously allowing both direct and van der Waals epitaxy of SrTiO3 (STO). We were able to grow a high-quality STO pseudosubstrate suitable for further overgrowth of functional oxides, such as PbZr1−xTixO3 (PZT). Given that the quality of the films grown on a reduced graphene oxide-buffer layer was almost identical to that obtained on SiC-derived graphene, we believe that this approach may provide new routes for direct and “remote” epitaxy or layer-transfer techniques of dissimilar material systems

PFM and Raman spectroscopy of selected dielectric materials

Title: PFM and Raman spectroscopy of selected dielectric materials Author: Fedir Borodavka Institute: Department of Dielectrics, Institute of Physics of the Academy of Sciences, Na Slovance 2, 182 21, Prague 8, Czech Republic Supervisor: Ing. Ivan Gregora, CSc. Training institute: Department of Dielectrics, Institute of Physics of the Academy of Sciences, Na Slovance 2, 182 21, Prague 8, Czech Republic Consultants: RNDr. Stanislav Kamba, CSc. and RNDr. Vladimír Vorlíček, CSc. Abstract: The thesis is devoted to a detailed investigation of dielectric materials using Raman spectroscopy and PFM microscopy techniques. Phonon properties of a newly synthesized guanylurea(1+) hydrogen phosphite single crystals have been studied. A tentative assignment of the observed Raman peaks has been done and the sets of A′ MIX, A′ TO and A′′ TO mode frequencies have been determined. Phonon behaviour of BiMnO3 ceramics, obtained from Raman spectra, has been char- acterized. After comparing the factor group analysis with the Raman spectra it has been concluded that the material has a centrosymmetric C2/c structure and is not ferroelectric. Lattice modes of the complex La1/2Na1/2TiO3 single crystal have been investigated. We have numerically analysed the intensity behaviour of the sharp peak at 455 cm−1 on heating and..

PFM and Raman spectroscopy of selected dielectric materials

Title: PFM and Raman spectroscopy of selected dielectric materials Author: Fedir Borodavka Institute: Department of Dielectrics, Institute of Physics of the Academy of Sciences, Na Slovance 2, 182 21, Prague 8, Czech Republic Supervisor: Ing. Ivan Gregora, CSc. Training institute: Department of Dielectrics, Institute of Physics of the Academy of Sciences, Na Slovance 2, 182 21, Prague 8, Czech Republic Consultants: RNDr. Stanislav Kamba, CSc. and RNDr. Vladimír Vorlíček, CSc. Abstract: The thesis is devoted to a detailed investigation of dielectric materials using Raman spectroscopy and PFM microscopy techniques. Phonon properties of a newly synthesized guanylurea(1+) hydrogen phosphite single crystals have been studied. A tentative assignment of the observed Raman peaks has been done and the sets of A′ MIX, A′ TO and A′′ TO mode frequencies have been determined. Phonon behaviour of BiMnO3 ceramics, obtained from Raman spectra, has been char- acterized. After comparing the factor group analysis with the Raman spectra it has been concluded that the material has a centrosymmetric C2/c structure and is not ferroelectric. Lattice modes of the complex La1/2Na1/2TiO3 single crystal have been investigated. We have numerically analysed the intensity behaviour of the sharp peak at 455 cm−1 on heating and..

Beta-Titanium Alloy Covered by Ferroelectric Coating–Physicochemical Properties and Human Osteoblast-Like Cell Response

Beta-titanium alloys are promising materials for bone implants due to their advantageous mechanical properties. For enhancing the interaction of bone cells with this perspective material, we developed a ferroelectric barium titanate (BaTiO3) coating on a Ti39Nb alloy by hydrothermal synthesis. This coating was analyzed by scanning electron and Raman microscopy, X-ray diffraction, piezoresponse force microscopy, X-ray photoelectron spectroscopy, nanoindentation, and roughness measurement. Leaching experiments in a saline solution revealed that Ba is released from the coating. A progressive decrease of Ba concentration in the material was also found after 1, 3, and 7 days of cultivation of human osteoblast-like Saos-2 cells. On day 1, the Saos-2 cells adhered on the BaTiO3 film in higher initial numbers than on the bare alloy, but they were less spread, and their initial proliferation rate was slower. These cells also contained a lower amount of beta1-integrins and vinculin, i.e., molecules involved in cell adhesion, and produced a lower amount of collagen I. This cell behavior was attributed to a higher surface roughness of BaTiO3 film rather than to its potential cytotoxicity, because the cell viability on this film was very high, reaching almost 99%. The amount of alkaline phosphatase, an enzyme involved in bone matrix mineralization, was similar in cells on the BaTiO3-coated and uncoated alloy, and on day 7, the cells on BaTiO3 film attained a higher final cell population density. These results indicate that after some improvements, particularly in its roughness and stability, the hydrothermal ferroelectric BaTiO3 film could be promising coating for improved osseointegration of bone implants

Electrostatically Driven Polarization Flop and Strain-Induced Curvature in Free-Standing Ferroelectric Superlattices

The combination of strain and electrostatic engineering in epitaxial heterostructures of ferroelectric oxides offers many possibilities for inducing new phases, complex polar topologies, and enhanced electrical properties. However, the dominant effect of substrate clamping can also limit the electromechanical response and often leaves electrostatics to play a secondary role. Releasing the mechanical constraint imposed by the substrate can not only dramatically alter the balance between elastic and electrostatic forces, enabling them to compete on par with each other, but also activates new mechanical degrees of freedom, such as the macroscopic curvature of the heterostructure. In this work, an electrostatically driven transition from a predominantly out-of-plane polarized to an in-plane polarized state is observed when a PbTiO3/SrTiO3 superlattice with a SrRuO3 bottom electrode is released from its substrate. In turn, this polarization rotation modifies the lattice parameter mismatch between the superlattice and the thin SrRuO3 layer, causing the heterostructure to curl up into microtubes. Through a combination of synchrotron-based scanning X-ray diffraction imaging, Raman scattering, piezoresponse force microscopy, and scanning transmission electron microscopy, the crystalline structure and domain patterns of the curved superlattices are investigated, revealing a strong anisotropy in the domain structure and a complex mechanism for strain accommodation.QN/Caviglia LabQN/Steele La