外延应变下HfO₂竞争铁电相的稳定性

Stabilization of Competing Ferroelectric Phases of HfO_{2} under Epitaxial Strain.

作者信息

Qi Yubo, Singh Sobhit, Lau Claudia, Huang Fei-Ting, Xu Xianghan, Walker Frederick J, Ahn Charles H, Cheong Sang-Wook, Rabe Karin M

机构信息

Department of Physics & Astronomy, Rutgers University, Piscataway, New Jersey 08854, USA.

Department of Physics, Yale University, New Haven, Connecticut 06520, USA.

出版信息

Phys Rev Lett. 2020 Dec 18;125(25):257603. doi: 10.1103/PhysRevLett.125.257603.

DOI:10.1103/PhysRevLett.125.257603

PMID:33416369

Abstract

Hafnia (HfO_{2})-based thin films have promising applications in nanoscale electronic devices due to their robust ferroelectricity and integration with silicon. Identifying and stabilizing the ferroelectric phases of HfO_{2} have attracted intensive research interest in recent years. In this work, first-principles calculations on (111)-oriented HfO_{2} are used to discover that imposing an in-plane shear strain on the metastable tetragonal phase drives it to a polar phase. This in-plane-shear-induced polar phase is shown to be an epitaxial-strain-induced distortion of a previously proposed metastable ferroelectric Pnm2_{1} phase of HfO_{2}. This ferroelectric Pnm2_{1} phase can account for the recently observed ferroelectricity in (111)-oriented HfO_{2}-based thin films on a SrTiO_{3} (STO) (001) substrate [Nat. Mater. 17, 1095 (2018)NMAACR1476-112210.1038/s41563-018-0196-0]. Further investigation of this alternative ferroelectric phase of HfO_{2} could potentially improve the performances of HfO_{2}-based films in logic and memory devices.

摘要

基于氧化铪（HfO₂）的薄膜因其强大的铁电性以及与硅的兼容性，在纳米级电子器件中具有广阔的应用前景。近年来，确定并稳定HfO₂的铁电相吸引了广泛的研究兴趣。在这项工作中，通过对（111）取向的HfO₂进行第一性原理计算发现，对亚稳四方相施加面内剪切应变会使其转变为极性相。这种面内剪切诱导的极性相被证明是先前提出的HfO₂亚稳铁电Pnm2₁相的外延应变诱导畸变。这种铁电Pnm2₁相可以解释最近在SrTiO₃（STO）（001）衬底上的（111）取向的基于HfO₂的薄膜中观察到的铁电性[《自然·材料》17, 1095 (2018)NMAACR1476 - 112210.1038/s41563 - 018 - 0196 - 0]。对HfO₂的这种替代铁电相的进一步研究可能会潜在地提高基于HfO₂的薄膜在逻辑和存储器件中的性能。

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外延应变下HfO₂竞争铁电相的稳定性

Stabilization of Competing Ferroelectric Phases of HfO_{2} under Epitaxial Strain.

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