Best results in : Research Potential Pokaż wszystkie wyniki (1)
Search results for: MULTIFERROIC
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Katedra Elektrochemii, Korozji i Inżynierii Materiałowej
Research PotentialBadania realizowane przez pracowników Katedry obejmują w szczególności: zjawiska i procesy elektrochemiczne, podstawy korozji i zabezpieczenie przed korozją, inżynierię materiałowa, fizykochemię powierzchni. W Katedrze Elektrochemii, Korozji i Inżynierii Materiałowej realizowanych jest szereg kierunków związanych z badaniami podstawowymi jak i techniczno-technologicznymi. Głównymi obszarami działalności naukowej są: badania mechanizmu...
Other results Pokaż wszystkie wyniki (10)
Search results for: MULTIFERROIC
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Synthesis and properties of bismuth ferrite multiferroic flowers
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Dielectric Spectroscopy Studies and Modelling of Piezoelectric Properties of Multiferroic Ceramics
PublicationCompounds and solid solutions of bismuth ferrite (BiFeO3)—barium titanate (BaTiO3) system are of great scientific and engineering interest as multiferroic and potential high-temperature lead-free piezoelectric materials. In the present paper, the results of research on the synthesis and characterisation of 0.67Bi1.02FeO3–0.33BaTiO3 (67BFBT) ceramics in terms of crystal structure and dielectric and piezoelectric properties are reported....
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X-RAY DIFFRACTION STUDY OF BISMUTH LAYER-STRUCTURED MULTIFERROIC CERAMICS
PublicationGoal of the present research was to apply a solid state reaction route to fabricate bismuth layer-structured multiferroic ceramics described with the formula Bi5FeTi3O15 and reveal the influence of processing conditions on its crystal structure and phase composition. Simple oxide powders Bi2O3, TiO2 and Fe2O3 were used to fabricate Aurivillius-type bismuth layer-structured ferroelectrics. Pressureless sintering in ambient air was...
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Low temperature broad band dielectric spectroscopy of multiferroic Bi6Fe2Ti3O18 ceramics
PublicationIn the present research the tool of broadband dielectric spectroscopy was utilized to characterize dielectric behavior of Bi6Fe2Ti3O18 (BFTO) Aurivillius-type multiferroic ceramics. Dielectric response of BFTO ceramics was studied in the frequency domain (Δν=0.1Hz – 10MHz) within the temperature range ΔT=-100°C – 200°C. The Kramers-Kronig data validation test was employed to validate the impedance data measurements and it was found...
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Laser operated nonlinear optical studies of BiFe0,9Cr0,1O3 and BiFe0,9Al0,1O3 multiferroics
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