Intelligent Processing of Ferroelectric Thin Films.

IF 0.5 4区材料科学 Q4 MATERIALS SCIENCE, CERAMICS American Ceramic Society Bulletin Pub Date : 1994-05-31 DOI:10.21236/ada282833

G. Haertling, E. Skaar, Raj N. Singh, Feiling Wang, D. Dausch

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引用次数: 9

Abstract

Abstract : This report details work that was performed at Clemson University over the fourth year of a four-year program involving intelligent processing of ferroelectric thin films. Since ferroelectric and electrooptic materials are known to possess properties that can vary widely due to form factor and processing method, studies were carried out by producing electrooptic thin films and bulk ceramics from the same acetate precursors via a liquid chemical MOD (metal organic decomposition) process and then characterizing their chemical, electrical, physical and electrooptic properties. It was desirable that a processing method compatible with both spin and dip-coated thin films as well as bulk ceramics made from coprecipitated powders be used in order to quantitatively compare their respective properties. The dielectric properties of electrooptic thin films were varied by mechanically altering the stresses placed upon the films. Comparisons were made among thin films under applied bending stresses of different magnitude. Properties measured were dielectric constant, saturation polarization, remanent polarization, coercive field and unit cell d-spacing.

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铁电薄膜的智能加工。

摘要:本报告详细介绍了克莱姆森大学四年制铁电薄膜智能加工项目的第四年所做的工作。由于已知铁电和电光材料具有由于形状因素和加工方法而变化很大的特性，因此通过液体化学MOD(金属有机分解)工艺从相同的醋酸前驱体生产电光薄膜和大块陶瓷，然后表征其化学，电学，物理和电光特性，进行了研究。为了定量地比较它们各自的性能，需要使用一种与自旋和浸渍薄膜以及共沉淀粉末制成的大块陶瓷兼容的加工方法。电光薄膜的介电性能是通过机械地改变施加在薄膜上的应力而改变的。对不同大小弯曲应力作用下的薄膜进行了比较。测量了介电常数、饱和极化、剩余极化、矫顽力场和单位晶胞d-间距。

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