材料科学
铁电性
介观物理学
外延
磁畴壁(磁性)
极化(电化学)
氧化物
凝聚态物理
薄膜
基质(水族馆)
复合材料
结晶学
纳米技术
光电子学
图层(电子)
地质学
化学
量子力学
物理
物理化学
磁化
海洋学
冶金
电介质
磁场
作者
Saidur Rahman Bakaul,Jaegyu Kim,Seungbum Hong,Mathew J. Cherukara,Tao Zhou,Liliana Stan,Claudy Rayan Serrao,Sayeef Salahuddin,A. K. Petford‐Long,Dillon D. Fong,Martin V. Holt
标识
DOI:10.1002/adma.201907036
摘要
Ferroelectric domain walls in single-crystal complex oxide thin films are found to be orders of magnitude slower when the interfacial bonds with the heteroepitaxial substrate are broken to create a freestanding film. This drastic change in domain wall kinetics does not originate from the alteration of epitaxial strain; rather, it is correlated with the structural ripples at mesoscopic length scale and associated flexoelectric effects induced in the freestanding films. In contrast, the effects of the bond-breaking on the local static ferroelectric properties of both top and bottom layers of the freestanding films, such as domain wall width and spontaneous polarization, are modest and governed by the change in epitaxy-induced compressive strain.
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