通过溶液处理实现具有磁控极化的大规模多铁性复合氧化物外延生长。

Large-scale multiferroic complex oxide epitaxy with magnetically switched polarization enabled by solution processing.

作者信息

Liu Cong, An Feng, Gharavi Paria S M, Lu Qinwen, Zha Junkun, Chen Chao, Wang Liming, Zhan Xiaozhi, Xu Zedong, Zhang Yuan, Qu Ke, Yao Junxiang, Ou Yun, Zhao Zhiming, Zhong Xiangli, Zhang Dongwen, Valanoor Nagarajan, Chen Lang, Zhu Tao, Chen Deyang, Zhai Xiaofang, Gao Peng, Jia Tingting, Xie Shuhong, Zhong Gaokuo, Li Jiangyu

机构信息

Shenzhen Key Laboratory of Nanobiomechanics, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, Shenzhen 518005, China.

School of Materials Science and Engineering, Xiangtan University, Xiangtan 411105, China.

出版信息

Natl Sci Rev. 2020 Jan;7(1):84-91. doi: 10.1093/nsr/nwz143. Epub 2019 Oct 8.

DOI:10.1093/nsr/nwz143

PMID:34692020

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8289034/

Abstract

Complex oxides with tunable structures have many fascinating properties, though high-quality complex oxide epitaxy with precisely controlled composition is still out of reach. Here we have successfully developed solution-based single-crystalline epitaxy for multiferroic (1-)BiTiFe MgO-()CaTiO (BTFM-CTO) solid solution in large area, confirming its ferroelectricity at the atomic scale with strong spontaneous polarization. Careful compositional tuning leads to a bulk magnetization of 0.07 ± 0.035 μ/Fe at room temperature, enabling magnetically induced polarization switching exhibiting a large magnetoelectric coefficient of 2.7-3.0 × 10 s/m. This work demonstrates the great potential of solution processing in large-scale complex oxide epitaxy and establishes novel room-temperature magnetoelectric coupling in epitaxial BTFM-CTO film, making it possible to explore a much wider space of composition, phase, and structure that can be easily scaled up for industrial applications.

摘要

具有可调结构的复合氧化物具有许多迷人的特性，尽管精确控制成分的高质量复合氧化物外延仍然难以实现。在这里，我们成功地开发了基于溶液的大面积多铁性(1-)BiTiFe MgO-()CaTiO (BTFM-CTO)固溶体单晶外延技术，在原子尺度上证实了其具有强自发极化的铁电性。仔细的成分调整导致室温下的体磁化强度为0.07±0.035 μ/Fe，实现了磁致极化切换，表现出2.7 - 3.0×10 s/m的大磁电系数。这项工作展示了溶液处理在大规模复合氧化物外延中的巨大潜力，并在外延BTFM-CTO薄膜中建立了新型室温磁电耦合，使得探索更广泛的成分、相和结构空间成为可能，并且可以很容易地扩大规模用于工业应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f0ad/8289034/3a30338782e3/nwz143fig1.jpg

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通过溶液处理实现具有磁控极化的大规模多铁性复合氧化物外延生长。

Large-scale multiferroic complex oxide epitaxy with magnetically switched polarization enabled by solution processing.

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