Ferroelectric properties of BiFeO_3 nanodots shattered by atomic force microscope

J.Y. Son; H. Song

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Ferroelectric properties of BiFeO_3 nanodots shattered by atomic force microscope

机译：原子力显微镜破碎的BiFeO_3纳米点的铁电性能

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A BiFeO_3 (BFO) nanodot was deposited on a Nb-doped SrTiO_3 substrate by dip-pen nanolithography. The BFO nanodot had a diameter of about 50 nm after drying and annealing to remove the solvent contained in the nanodot. To make nanoparticles smaller than a few tens of nanometers, the BFO nanodot was then shattered using an atomic force microscope. Ferroelectric BFO nanodots smaller than 20 nm in diameter were successfully fabricated after the annealing process. A ferroelectric BFO nanodot smaller than 15 nm exhibited good ferroelectric properties with a canonical piezoelectric hysteresis loop and tunneling currents depending on ferroelectric polarizations.

机译：通过浸渍笔纳米光刻将BiFeO_3（BFO）纳米点沉积在掺Nb的SrTiO_3衬底上。在干燥和退火以除去纳米点中包含的溶剂之后，BFO纳米点的直径为约50nm。为了使纳米颗粒小于几十纳米，然后使用原子力显微镜将BFO纳米点粉碎。在退火过程之后，成功地制造了直径小于20 nm的铁电BFO纳米点。小于15 nm的铁电BFO纳米点具有良好的铁电特性，具有典型的压电磁滞回线和隧道电流，具体取决于铁电极化。

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《CERAMICS INTERNATIONAL 》 |2014年第1期| 共4页
作者
J.Y. Son; H. Song;
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正文语种 eng
中图分类陶瓷工业 ; 硅酸盐工业 ;
关键词
Ferroelectricity; BiFeO_3 nanodot; Shattering process; Atomic force microscopy;

机译：铁电BiFeO_3纳米粉碎过程原子力显微镜;

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1. Ferroelectric properties of BiFeO_3 nanodots shattered by atomic force microscope [J] . J.Y. Son, H. Song CERAMICS INTERNATIONAL . 2014 ,第1aPta1期

机译：原子力显微镜破碎的BiFeO_3纳米点的铁电性能
2. Ferroelectric BiFeO3 nanodots formed in non-crystallized BiFeO3 thin-films via a local heating process using a heated atomic force microscope tip [J] . Shin Hyun Wook, Son Jong Yeog Journal of Sol-Gel Science and Technology . 2018 ,第1期

机译：使用加热的原子力显微镜尖端通过局部加热工艺在非结晶的BIFEO3薄膜中形成铁电BIFEO3纳米膜
3. Local ferroelectric polarization switching properties of BiFeO_3 nanodots and thin films depending on the ferroelectric polarization nanobit diameter [J] . Ahn Yoonho, Shin Hyun Wook, Son Jong Yeog Thin Solid Films . 2018 ,第MARa1期

机译：BiFeO_3纳米点和薄膜的局部铁电极化转换特性取决于铁电极化纳米位的直径
4. Prototype of atomic force microscope with high resolution optical microscope for observing magnetic nanodot arrays [C] . Tao Jin, Ryosuke Takahashi, Hui Zhang International Conference on Advanced Micro-Device Engineering . 2015

机译：具有高分辨率光学显微镜的原子力显微镜原型，用于观察磁NANOTOT阵列
5. Analytical Developments for the Measurement of Viscoelastic Properties with the Atomic Force Microscope [D] . López Guerra, Enrique A. 2018

机译：原子力显微镜测量粘弹性性能的分析进展
6. Nanoscale Fabrication of the Ferroelectric Polymer Poly(vinylidene Fluoride with Trifluoroethylene) P(VDF-TrFE) 75:25 Thin Films by Atomic Force Microscope Nanolithography [O] . Omar Vega, David Delgado, Freddy Wong, -1

机译：纳米级制造铁电聚合物聚（偏二氟乙烯与三氟乙烯）P（VDF-TRFE）75:25通过原子力显微镜纳米线薄膜
7. Prototype of atomic force microscope with high resolution optical microscope for observing magnetic nanodot arrays [O] . Tao Jin A, Ryosuke Takahashi B, Hui Zhang C, 2016

机译：用高分辨率光学显微镜观察磁纳米点阵列的原子力显微镜原型
8. Analytical Model of Nanometer Scale Viscoelastic Properties of Polymer Surfaces Measured Using an Atomic Force Microscope [R] . Goldberg, J. B. 2011

机译：用原子力显微镜测量聚合物表面纳米级粘弹性的分析模型

Ferroelectric properties of BiFeO_3 nanodots shattered by atomic force microscope

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