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Collective dynamics underpins Rayleigh behavior in disordered polycrystalline ferroelectrics.Formation of charged ferroelectric domain walls with controlled periodicity.Breaking of macroscopic centric symmetry in paraelectric phases of ferroelectric materials and implications for flexoelectricity.The negative piezoelectric effect of the ferroelectric polymer poly(vinylidene fluoride).Flexoelectricity in Bones.Domain-wall conduction in ferroelectric BiFeO3 controlled by accumulation of charged defects.An All-Organic Elastomeric Electret Composite.Self-Poling of BiFeO3 Thick Films.Deaging and asymmetric energy landscapes in electrically biased ferroelectrics.Long-range symmetry breaking in embedded ferroelectricsFrequency-dependent decoupling of domain-wall motion and lattice strain in bismuth ferriteNanoscale Defect Engineering and the Resulting Effects on Domain Wall Dynamics in Ferroelectric Thin FilmsAsymmetric structure of90∘domain walls and interactions with defects inPbTiO3Free-Carrier-Compensated Charged Domain Walls Produced with Super-Bandgap Illumination in Insulating FerroelectricsEvidence for dielectric aging due to progressive180°domain wall pinning in polydomainPb(Zr0.45Ti0.55)O3thin filmsHigh-Temperature Instability of Li- and Ta-Modified (K,Na)NbO3PiezoceramicsRaman spectroscopy of (K,Na)NbO3 and (K,Na)1−xLixNbO3A study of the phase diagram of (K,Na,Li)NbO3 determined by dielectric and piezoelectric measurements, and Raman spectroscopyCompositional Inhomogeneity in Li- and Ta-Modified (K, Na)NbO3CeramicsGiant domain wall contribution to the dielectric susceptibility in BaTiO3 single crystalsLandau thermodynamic potential for BaTiO3Large and stable thickness coupling coefficients of [001]C-oriented KNbO3 and Li-modified (K,Na)NbO3 single crystalsPiezoelectric anisotropy: Enhanced piezoelectric response along nonpolar directions in perovskite crystalsQualitative distinction in enhancement of the piezoelectric response in PbTiO3 in proximity of coercive fields: 90° versus 180° switchingRotator and extender ferroelectrics: Importance of the shear coefficient to the piezoelectric properties of domain-engineered crystals and ceramicsTemperature stability of the piezoelectric properties of Li-modified KNN ceramicsUniaxial-stress induced phase transitions in [001]C-poled 0.955Pb(Zn1∕3Nb2∕3)O3–0.045PbTiO3Anharmonicity ofBaTiO3single crystalsDielectric nonlinearity and polarization anharmonicity of BaTiO 3Electric-field-, temperature-, and stress-induced phase transitions in relaxor ferroelectric single crystalsPublisher's Note: “Ferroelectric thin films: Review of materials, properties, and applications” [J. Appl. Phys. 100, 051606 (2006)]Extension of the dielectric tunability range in ferroelectric materials by electric bias field antiparallel to polarizationFerroelectric thin films: Review of materials, properties, and applicationsPiezoelectric anisotropy: Enhanced piezoelectric response along nonpolar directions in perovskite crystalsPiezoelectric response and free-energy instability in the perovskite crystalsBaTiO3,PbTiO3, andPb(Zr,Ti)O3Preparation and characterization of (K0.5Na0.5)NbO3 ceramicsTemperature dependence of the direct piezoelectric effect in relaxor-ferroelectric single crystals: Intrinsic and extrinsic contributionsAnalytical modeling of the apparent d/sub 33/ piezoelectric coefficient determined by the direct quasistatic method for different boundary conditionsCorrelation between dielectric anisotropy and positive or zero transverse piezoelectric coefficients in perovskite ferroelectric single crystalsDevelopment of relaxor ferroelectric materials for screen-printing on alumina and silicon substrates
P50
Q30479078-3482897A-8F22-44B1-8A01-EADB0B33C60BQ38948283-59833724-57C6-4B5F-B9F1-C91EE65EAE77Q44876212-F96657F3-84B9-4410-8F21-1956F3BBA9C4Q48124808-F20A89CF-3C9D-4EAE-93D8-D28EDCB025BCQ48220377-6260BFCA-50A7-4EB0-A336-E527347E3D0FQ48228899-F9235101-CE1D-4C20-81CC-61653A5B515BQ50225733-2628B0BA-08DB-4F76-9DC4-D41F2BA49BCCQ51260652-8FAF072F-6AFE-4E18-91CF-385D1982887FQ53100759-B365DF57-5B7B-4FD9-9159-7EEFC581CBE7Q58820441-5A5ED261-FD6F-4A58-8938-4B4181F24BA0Q59336034-EDEA66B1-8DE2-43EA-9B7E-6074A136F37BQ59658192-54975A73-7567-4F91-8BAA-1E93B24A2185Q59658196-ABF57B75-7F6F-4E29-AA91-831B8FEA94C5Q59658198-4B837369-5083-4B26-B792-F831DB7FC8DCQ59658231-AF8C1C74-C4CA-474A-99D1-0A1483F0903FQ59658240-5065809A-FC2E-4099-B21A-298074CE0F7FQ59658243-D07553A2-0ED6-4F92-AF35-FC5A9A13789EQ59658251-940236CB-B26C-4107-ACFA-7F4D8DE966C0Q59658253-967F1B55-80A9-4EDC-A4CC-7519B568CC13Q59658263-0D9A2B76-47E5-4609-85D7-B79CEC02DBBCQ59658265-A4A7748B-EDC8-4B91-8DE9-EB7C5FF1D5BCQ59658266-B63A7616-9469-47B2-841E-47C34920E38DQ59658271-5D3F0E81-5562-4E62-92D6-16FD07F49DF0Q59658275-9186DC71-FDA8-4479-89FB-0292285018EBQ59658282-C3FCCFB0-4DAF-4A9A-B214-7067C8FD8B6BQ59658283-EB52B7C2-23CE-4AD8-9220-7EB7E9AD8A94Q59658290-AC6A8B6F-3123-4F89-8B3D-CC6111D6B6CAQ59658292-7C469C99-8C74-4F17-8E25-32478EF9031AQ59658296-4418EAA6-B8EF-4AE5-A1DC-50B4709375D0Q59658301-BBB69BDC-C005-4C50-8D65-58B896106C59Q59658305-35080894-1B6F-4AB2-AE16-7D4A471B4C51Q59658307-69B05BFF-184A-4935-8AB5-71DC636176D3Q59658313-3C616E8C-C6EE-4F7B-8AFD-24C68075A420Q59658320-19E2BA3E-077A-44EE-92E6-E39EF14EF63BQ59658321-E6A8B969-CE9B-4111-AFB7-7E2B6147E97FQ59658324-6F3B5B5A-01E3-46D2-A533-324716AAE38EQ59658328-A82E8503-F339-43E6-9F8A-BFD7AC06CCDBQ59658329-C3070ABE-D99F-4588-9997-06E5F3865AA4Q59658330-B6F5D184-BB36-4F3E-B043-127DB606AC24Q59658331-0C1397B3-FE83-4610-8FE0-BB7DC855C5CC
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Dragan Damjanovic
@ast
Dragan Damjanovic
@en
Dragan Damjanovic
@es
Dragan Damjanovic
@nl
type
label
Dragan Damjanovic
@ast
Dragan Damjanovic
@en
Dragan Damjanovic
@es
Dragan Damjanovic
@nl
prefLabel
Dragan Damjanovic
@ast
Dragan Damjanovic
@en
Dragan Damjanovic
@es
Dragan Damjanovic
@nl
P106
P1153
7006182046
P31
P496
0000-0002-9596-7438