Ferroelectricity in Hafnia Controlled via Surface Electrochemical State

铁电性 哈夫尼亚 材料科学 解耦(概率) 桥接(联网) 半导体 凝聚态物理 纳米技术 电介质 化学物理 工程物理 光电子学 陶瓷 立方氧化锆 化学 物理 计算机科学 复合材料 工程类 控制工程 计算机网络
作者
Kyle P. Kelley,Anna N. Morozovska,Eugene А. Eliseev,Yongtao Liu,Shelby S. Fields,Samantha T. Jaszewski,Takanori Mimura,Jon F. Ihlefeld,Sergei V. Kalinin
出处
期刊:Cornell University - arXiv [Cornell University]
被引量:2
标识
DOI:10.48550/arxiv.2207.12525
摘要

Ferroelectricity in binary oxides including hafnia and zirconia have riveted the attention of the scientific community due to highly unconventional physical mechanisms and the potential for integration of these materials into semiconductor workflows. Over the last decade, it has been argued that behaviors such as wake-up phenomena and an extreme sensitivity to electrode and processing conditions suggests that ferroelectricity in these materials is strongly coupled with additional mechanisms, with possible candidates including the ionic subsystem or strain. Here we argue that the properties of these materials emerge due to the interplay between the bulk competition between ferroelectric and structural instabilities, similar to that in classical antiferroelectrics, coupled with non-local screening mediated by the finite density of states at surfaces and internal interfaces. Via decoupling of electrochemical and electrostatic controls realized via environmental and ultra-high vacuum PFM, we show that these materials demonstrate a rich spectrum of ferroic behaviors including partial pressure- and temperature-induced transitions between FE and AFE behaviors. These behaviors are consistent with an antiferroionic model and suggest novel strategies for hafnia-based device optimization.
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