# Solution Processed Large-scale Multiferroic Complex Oxide Epitaxy with   Magnetically Switched Polarization

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

arXiv: 1904.03370 · 2019-04-09

## TL;DR

This paper reports the development of solution-based large-scale epitaxy of multiferroic complex oxides with tunable properties, demonstrating room-temperature magnetoelectric coupling and potential for industrial applications.

## Contribution

It introduces a novel solution processing method for high-quality, large-area multiferroic oxide epitaxy with tunable ferroelectric and magnetic properties.

## Key findings

- Achieved ferroelectricity with spontaneous polarization of 79-89 μC/cm².
- Realized bulk magnetization of ~0.07 μB/Fe at room temperature.
- Observed large magnetoelectric coupling with a coefficient of 2.7-3.0×10⁻⁷ s/m.

## 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-x)BiTi(1-y)/2FeyMg(1-y)/2O3-(x)CaTiO3 (BTFM-CTO) solid solution in large area, confirming its ferroelectricity at atomic-scale with a spontaneous polarization of 79~89uC/cm2. Careful compositional tuning leads to a bulk magnetization of ~0.07uB/Fe at room temperature, enabling magnetically induced polarization switching exhibiting a large magnetoelectric coefficient of 2.7-3.0X10-7s/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.

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Source: https://tomesphere.com/paper/1904.03370