04648nam 2201057z- 450 991064000020332120231214133523.03-0365-5944-2(CKB)5470000001633350(oapen)https://directory.doabooks.org/handle/20.500.12854/95783(EXLCZ)99547000000163335020202301d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierNanoscale Ferroic Materials—Ferroelectric, Piezoelectric, Magnetic, and Multiferroic MaterialsBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (168 p.)3-0365-5943-4 Ferroic materials, including ferroelectric, piezoelectric, magnetic, and multiferroic materials, are receiving great scientific attention due to their rich physical properties. They have shown their great advantages in diverse fields of application, such as information storage, sensor/actuator/transducers, energy harvesters/storage, and even environmental pollution control. At present, ferroic nanostructures have been widely acknowledged to advance and improve currently existing electronic devices as well as to develop future ones. This Special Issue covers the characterization of crystal and microstructure, the design and tailoring of ferro/piezo/dielectric, magnetic, and multiferroic properties, and the presentation of related applications. These papers present various kinds of nanomaterials, such as ferroelectric/piezoelectric thin films, dielectric storage thin film, dielectric gate layer, and magnonic metamaterials. These nanomaterials are expected to have applications in ferroelectric non-volatile memory, ferroelectric tunneling junction memory, energy-storage pulsed-power capacitors, metal oxide semiconductor field-effect-transistor devices, humidity sensors, environmental pollutant remediation, and spin-wave devices. The purpose of this Special Issue is to communicate the recent developments in research on nanoscale ferroic materials.Research & information: generalbicsscPhysicsbicsscPMN-PT thin filmspreferred orientationferroelectric propertydielectric propertyflexiblefilm capacitorBa0.5Sr0.5TiO3/0.4BiFeO3-0.6SrTiO3energy storage propertiesMOS capacitorsSm2O3 high-k gate dielectricatomic layer depositionconduction mechanismsinterface state densityBSFMphase transitionagingelectrical propertiesBiOCl/NaNbO3heterojunctionpiezocatalysisphotocatalysisdegradationhumidity sensingimpedance-type sensorsorganometallic halide perovskiteHZOPEALDferroelectric memorydeposition temperaturefilm densityremanent polarizationfatigue enduranceCBTi-BFOfine grainelectric breakdown strengthrecoverable energy storagespin wavesDzyaloshinskii–Moriya interactionferromagnetismspintronicstwo-dimensional materialsferroelectric propertiesscanning probe microscopenegative piezoelectricityphase segregationmultiferroic materialsanisotropyDyFeO3magnetoelectric couplingpulsed high magnetic fieldDM interactioncrystalline YFeO3magnetic propertiesenhanced weak ferromagnetismexchange interactionsResearch & information: generalPhysicsCheng Zhenxiangedt1296437Yang ChanghongedtWang ChunchangedtCheng ZhenxiangothYang ChanghongothWang ChunchangothBOOK9910640000203321Nanoscale Ferroic Materials—Ferroelectric, Piezoelectric, Magnetic, and Multiferroic Materials3024075UNINA