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氮气中退火制备(Bi, Dy)4Ti3O12
  • 期刊名称:湘潭大学自然科学学报. (In Press)
  • 时间:0
  • 相关项目:铋层状钙钛矿铁电薄膜的制备及其热冲击下断裂失效行为
作者: 成传品, 唐明华, 叶 志等,
同期刊论文项目
铋层状钙钛矿铁电薄膜的制备及其热冲击下断裂失效行为
期刊论文 55 会议论文 13 著作 1
同项目期刊论文
Ferroelectric properties of dy
Evaluation of effective elasti
Eight logic states of tunnelin
Modeling of imprint in hystere
Simulation of electric propert
Effects of europium content on
Comparison of island formation
A model for the polarization h
A lattice unit model to evalua
Stress intensity factor of a c
Dynamic thermopiezoelectric re
Enhancement of fatigue enduran
Structure evolution and ferroe
Electrical properties of V-dop
Ferroelectric properties of Bi
Characterization of ultra-thin
Electrical properties of Nd-su
Microstructure and ferroelectr
(Bi3.7Dy0.3)(Ti2.8V0.2)O12铁电
Effect of crystallization temp
Kinetic Monte Carlo Simulation
Evolution of the domain struct
Thermopiezoelectric fields of
Pulsed-laser deposition of pol
(Bi,Yb)4Ti3O12 薄膜的制备
(Bi,Yb)4Ti3O12 薄膜退火研究
Structural and electrical prop
Bilayer model of polarization
Electrical Properties of Metal
Nanoscale domain switching in
Dependence of morphology of pu
Investigation of an anisotropi
Effect of external stress on p
Near tip stress intensity fact
The effects of annealing tempe
Improved ferroelectric propert
A temperature-dependent model
Effect of annealing temperatur
Simulation of polarization and
(Bi3.7Dy0.3)(Ti2.8V0.2)O12铁电薄膜的制备及退火影响
部分耗尽SOI MOSFETs中沟道的非对称掺杂效应
全耗尽SOIMOSFETs阈值电压和电势分布的温度模型
部分耗尽SOI MOSFETs中翘曲效应的温度模型
(Bi,Yb)4Ti3O12铁电薄膜的制备
(Bi,Yb)4Ti3O12薄膜退火研究
Effect of crystallization temperature on microstructure and ferroelectric property of Bi3.25 Eu0.75 Ti3O12 thin films prepared by MOD method
Evolution of domain structure and frequency effect on ferroelectric properties in BIT ferroelectrics
Effect of external stress on phase diagrams and dielectric properties of epitaxial ferroelectric thin films grown on orthorhombic substrates
Simulation of electric properties of MFIS capacitor with BNT ferroelectric thin film using Silvaco/Atlas
Kinetic Monte Carlo simulation of growth of BaTiO3 thin film via pulsed laser deposition