Piezoelectric micromachined ultrasound transducer (PMUT) arrays for integrated sensing, actuation and imaging.Collective dynamics underpins Rayleigh behavior in disordered polycrystalline ferroelectrics.(111)(p) microtwinning in SrRuO(3) thin films on (001)(p) LaAlO(3).Ultrafast crystallization kinetics in (Pb,La)Zr₀.₃₀Ti₀.₇₀O₃ thin films by pulsed excimer laser annealing.High Curie temperature BiInO3-PbTiO3 filmsStabilisation of Fe2O3-rich Perovskite Nanophase in Epitaxial Rare-earth Doped BiFeO3 Films.Higher order harmonic detection for exploring nonlinear interactions with nanoscale resolution.Sputter deposition of PZT piezoelectric films on thin glass substrates for adjustable x-ray optics.High frequency piezoelectric MEMS ultrasound transducers.CMOS Ultrasound Transceiver Chip for High-Resolution Ultrasonic Imaging Systems.Thickness dependence of dielectric nonlinearity of lead zirconate titanate films.Fast Magnetic Domain-Wall Motion in a Ring-Shaped Nanowire Driven by a Voltage.Introduction to the special issue on the applications of ferroelectrics--part II.Pathway to the piezoelectronic transduction logic device.Giant piezoelectricity on Si for hyperactive MEMS.Ferroelectric and ferroelastic domain wall motion in unconstrained Pb(Zr,Ti)O3 microtubes and thin films.Dielectric and electromechanical properties of barium titanate single crystals grown by templated grain growth.Room-temperature voltage tunable phonon thermal conductivity via reconfigurable interfaces in ferroelectric thin films.Control of crystallographic texture and surface morphology of Pt/Tio2 templates for enhanced PZT thin film texture.Introduction to the special issue on the applications of ferroelectrics - part IQuantification of octahedral rotations in strained LaAlO3films via synchrotron x-ray diffractionUnleashing Strain Induced Ferroelectricity in Complex Oxide Thin Films via Precise Stoichiometry ControlRelaxor Ferroelectric Behavior in Barium Strontium TitanateEffect of Mechanical Constraint on Domain Reorientation in Predominantly {111}-Textured Lead Zirconate Titanate FilmsFlexible Technologies for Self-Powered Wearable Health and Environmental SensingIn situ measurement of increased ferroelectric/ferroelastic domain wall motion in declamped tetragonal lead zirconate titanate thin filmsFerroelectric/Ferroelastic domain wall motion in dense and porous tetragonal lead zirconate titanate filmsResidual ferroelectricity in barium strontium titanate thin film tunable dielectricsExtensions of molecular ruler technology for nanoscale patterningOptimized Design, Fabrication and Characterization of PZT Unimorph Microactuators for Deformable MirrorsVisualization of dielectric constant-electric field-temperature phase maps for imprinted relaxor ferroelectric thin filmsEditorialOptical fibers with patterned ZnO/electrode coatings for flexural actuatorsDomain wall contributions to the properties of piezoelectric thin filmsOperation of a high frequency piezoelectric ultrasound array with an application specific integrated circuitHigh-resolution x-ray telescopesOn-orbit adjustment concepts for the Generation-X ObservatoryStrongly (001) Oriented Bimorph PZT Film on Metal Foils Grown by rf -Sputtering for Wrist-Worn Piezoelectric Energy HarvestersInfluence of PbO content on the dielectric failure of Nb-doped {100}-oriented lead zirconate titanate filmsPulsed-Laser Deposited 35 Bi(Mg1/2Ti1/2) O3-65 PbTiO3 Thin Films—Part I: Influence of Processing on Composition, Microstructure, and Ferroelectric Hysteresis
P50
Q30411702-D444012A-01EC-40B1-8731-346846CE1C13Q30479078-C91D6E3E-F2A6-478D-81C7-5E68A0328E9FQ33516206-3DAF1244-029D-413A-8DF1-4100B2C158F6Q33708596-470252A3-75CC-4EDB-8601-35169313B837Q34296541-41556FC0-9881-45A1-BE4F-8B29C687E22CQ35745549-64BA4309-AB33-485A-B0B1-4B46794E61E4Q37177615-9EB5E6C7-AF8A-4E9C-927F-FE5E6FB3A080Q39419708-986B55C7-B506-4D40-9D09-CFAC25C78A01Q39834715-B728CCAD-9EAC-4998-831D-5547AB1F9C6BQ40124359-04FC488A-2654-4E6E-ABDE-575AE49B9F33Q46415240-549C4CA2-078E-43C7-8C5F-5098F91247BCQ46824423-DCBFDC81-B528-4B08-A3EA-CD853E9C3B1CQ47667778-E70AD9D5-8079-43E2-B990-6838E247BF1BQ50595421-56B01AD2-BF67-4719-A77F-B934DA789327Q53398164-280668D3-F41F-4A25-8DB8-1E6A5EA73F0AQ53474275-9A59B3BA-D746-49A2-A7A6-7FBB582E869DQ53550712-6752458F-84E3-48CB-8BC8-8FE78F6C98A3Q53603961-F810242A-7E3E-421A-9B06-80C017BA23ABQ53638908-A9812E86-6566-4B28-9B95-6657733AB785Q54141288-3837693D-65E9-4946-86C9-3F6DED927CB2Q56994172-75633DE5-E428-49EB-9EB6-39413627450BQ57430029-663EBF2E-72B0-40F7-A3E4-4666F45ED2C8Q57432133-49956B27-CFAF-4FDB-9B84-70A37D21082EQ57432135-5DA2B420-1EC1-403E-A926-A9E45C6762AFQ57437911-69181B1A-DD78-454F-8E9E-5647E30A19A8Q57438537-9DD341FC-E76F-4F6D-9634-79CF64FF7E11Q57439902-3E348665-906C-4149-A346-2BB3F4F641A7Q57441866-B2CE492D-151E-46AE-A8B9-F5D36EBD7B10Q58467719-C3736B12-A29E-410E-B2D5-973A1EF0086AQ58475967-57806650-CF1F-40EA-8372-1935BB22D5F9Q59363051-F1B96FF4-9EFA-40FA-B18D-8A7C8CDF6414Q59658229-73698764-E579-49E5-88EA-461B64F32305Q59658428-398FB400-AF3A-4476-8D7B-5BB4F914F310Q59795243-D7769934-975B-4005-B30A-EB4F3513DF67Q59823178-6008DA34-5A1E-4AE7-9DE7-72BB4D1FD7FEQ59917752-E9C05AE6-2C75-4A11-B5E2-8431B20806A1Q59917756-BBC052A2-446B-4FAA-857C-2051A330C618Q60290006-F5F94545-DF44-46B9-A235-9BBCB07DA760Q60290008-2C9E4620-8F73-4816-AA6F-434520D1AC3DQ60290011-BD3BC15A-6306-41F3-A84C-3EC47912BBA0
P50
description
American materials scientist
@en
onderzoeker
@nl
name
Susan Trolier-McKinstry
@ast
Susan Trolier-McKinstry
@de
Susan Trolier-McKinstry
@en
Susan Trolier-McKinstry
@es
Susan Trolier-McKinstry
@nl
Susan Trolier-McKinstry
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type
label
Susan Trolier-McKinstry
@ast
Susan Trolier-McKinstry
@de
Susan Trolier-McKinstry
@en
Susan Trolier-McKinstry
@es
Susan Trolier-McKinstry
@nl
Susan Trolier-McKinstry
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prefLabel
Susan Trolier-McKinstry
@ast
Susan Trolier-McKinstry
@de
Susan Trolier-McKinstry
@en
Susan Trolier-McKinstry
@es
Susan Trolier-McKinstry
@nl
Susan Trolier-McKinstry
@sl
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0000-0002-7267-9281
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lccn-n2017028795