Publications with the keyword "ferroelectric properties"

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L. Imhoff, S. Barolin, N. Pellegri, and M. Stachiotti
Chelate route for the synthesis of PbZrxTi1−xO3 thin films
Journal of Sol-Gel Science and Technology (cited By 1), 83(2), 375-381, 2017
amorphous films chelation chemicals deposition distillation ferroelectric films ferroelectric materials ferroelectricity film growth lanthanum compounds perovskite rapid thermal annealing titanium chemical solution deposition conventional furnace dielectric ferroelectric properties ferroelectric property formation process inlinemediaobject perovskite phasis solution synthesis thin films
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A. D. Loreto, A. Frattini, R. MacHado, O. D. Sanctis, and M. Stachiotti
Preparation and characterization of Mn-doped (Ba0.85Ca 0.15)(Zr0.1Ti0.9)O3 ceramics
Ferroelectrics (cited By 5), 463(1), 105-113, 2014
ball milling calcium ceramic materials manganese manganese oxide mechanical alloying milling (machining) zirconium bczt dielectric ferroelectric properties doped ceramics high-energy ball milling process lead-free piezoelectrics mechanical milling phase formation process remnant polarizations ferroelectric ceramics
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M. Santiago, R. Machado, M. Stachiotti, and O. D. Sanctis
Influence of tungsten doping on the ferroelectric behavior of Sr 0.8Bi2.3Ta2O9 thin films
Ferroelectrics (cited By 0), 406(1), 168-175, 2010
bismuth compounds ferroelectric films ferroelectric materials ferroelectricity semiconductor doping strontium compounds tantalum compounds tungsten annealing temperatures chemical solution deposition techniques dielectric ferroelectric properties dopant concentrations ferroelectric behavior ferroelectric property secondary phase substitution effect thin films
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R. MacHado, M. Santiago, M. Stachiotti, A. Frattini, N. Pellegri, R. Bolmaro, and O. D. Sanctis
Effects of acetoin as chelating agent on the preparation of SrBi 2Ta2O9 thin films from non-hydrolyzing precursors
Journal of Sol-Gel Science and Technology (cited By 4), 48(3), 294-302, 2008
agents alkaline earth metals bismuth chelation crystal microstructure crystal orientation crystallization ferroelectric films ferroelectric materials ferroelectric thin films ferroelectricity grain size shape ketones methanol microstructure nanocrystalline alloys nitrates organic compounds organic solvents powders segregation (metallography) strontium tantalum thick films thin films transition metals acetoin alkanolamines bismuth nitrates chelating agents chemical solution deposition techniques crystallinity crystallization processes dielectric ferroelectric properties ferroelectrics grain size distributions low temperatures microstructure evolutions organics phase formations precursor chemistries precursor chemistry precursor materials sbt secondary phases strontium bismuth tantalates surface micro structures tantalum ethoxide thermal evolutions film preparation
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M. Santiago, M. Stachiotti, R. MacHado, N. Pellegri, and O. D. Sanctis
Synthesis and characterization of PMN-PT thin films prepared by a new chemical route
Ferroelectrics (cited By 5), 370(14), 85-93, 2008
2-butanone acetoin average grain size chelating agent chemical routes chemical solution deposition crack-free films dielectric ferroelectric properties ethoxides lead acetate lead magnesium niobate-lead titanates multilayer process perovskite phase piezoelectrics pmn-pt pt precursors pt thin films si substrates starting materials synthesis characterization titanium butoxide atomic force microscopy chelation deposition ferroelectricity film preparation ketones magnesium methanol niobium niobium compounds organic solvents oxide minerals perovskite phototransistors synthesis (chemical) thin films titanium multilayer films
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M. Sepliarsky, A. Asthagiri, S. Phillpot, M. Stachiotti, and R. Migoni
Atomic-level simulation of ferroelectricity in oxide materials
Current Opinion in Solid State and Materials Science (cited By 94), 9(3), 107-113, 2005
computer simulation ferroelectric materials materials science oxide minerals physical properties atomistic simulation ferroelectric properties materials fidelity oxide materials ferroelectricity
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