(1-x)Sr3Sn2O7+xCa3Mn2O7 ceramics and their photo-electric characteristics

Huang Yu-Tian; Wang Yu; Zhu Min-Min; Lü Ting; Yang Hong-Chun; Li Xiang; Wang Xiu-Zhang; Liu Mei-Feng; Li Shao-Zhen

doi:10.7498/aps.67.20180954

Abstract

In order to obtain new hybrid improper ferroelectricity, the (1-x)Sr3Sn2O7+xCa3Mn2O7 (0 x 0.2) samples each with a Ruddlesden-Popper phase are prepared by the conventional solid-state reaction method. The phase purity is characterized by X-ray diffraction through using the GSAS refinement. The results indicate that (1-x)Sr3Sn2O7+xCa3Mn2O7 sample has an orthorhombic structure and its cell constants decrease with content x increasing. At room temperature, the dielectric constant decreases with frequency increasing. Sr3Sn2O7 exhibits diamagnetism. With increasing the content of Ca3Mn2O7, the sample presents diamagnetism, paramagnetism, weak ferromagnetic and paramagnetism in sequence. And the sample with x=0.1 has a weak ferromagnetic property. All these pave a way for selecting Ruddlesden-Popper multiferroic materials.

Keywords:

Authors and contacts

1.
School of Mathematics and Physics, Hubei Polytechnic University, Huangshi 435003, China;
2.
Institute for Advanced Materials, Hubei Normal University, Huangshi 435002, China;
3.
School of Materials Science and Engineering, Hubei Polytechnic University, Huangshi 435003, China

Corresponding author: Liu Mei-Feng, lmfeng1107@hbnu.edu.cn;origen2003@126.com ; Li Shao-Zhen, lmfeng1107@hbnu.edu.cn;origen2003@126.com

Funds: Project supported by the Young Scientists Fund of the National Natural Science Foundation of China (Grant Nos. 51302074, 11704109), the National Natural Science Foundation of China (Grant No. 11374147), and the Research Project of Hubei Provincial Department of Education, China (Grant No. Q20172501).

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Cited By

[1]	Scott J F, Paz de Araujo C A 1989 Science 246 1400
[2]	Prinz G A 1998 Science 282 1660
[3]	Wolf S A, Awschalom D D, Buhrman R A, Daughton J M, von Molnr S, Roukes M L, Chtchelkanova A Y, Treger D M 2001 Science 294 1488
[4]	Zutic I, Fabian J, das Sarma S 2004 Rev. Mod. Phys. 76 323
[5]	Wang J, Neaton J B, Zheng H, Nagarajan V, Ogale S B, Liu B, Viehland D, Vaithyanathan V, SchlomD G, Waghmare U V, Spaldin N A, RabeK M, Wuttig M, Ramesh R 2003 Science 299 1719
[6]	Dong S, Liu J M, Cheong S W, Ren Z 2015 Adv. Phys. 64 519
[7]	Benedek N A, Fennie C J 2011 Phys. Rev. Lett. 106 107204
[8]	Bousquet E, Dawber M, Stucki N, Lichtensteiger C, Hermet P, Gariglio S, Triscone J M, Ghosez P 2008 Nature 452 732
[9]	Wang Y Z, Huang F T, Luo X, Gao B, Cheong S W 2017 Adv. Mater. 29 1601288
[10]	ToosiA R, Shamlouei H R, Hesari A M 2016 Chin. Phys. B 25 094220
[11]	Lobanov M V, Li S W, Greenblatt M 2003 Chem. Mater. 15 1302
[12]	Zhu W K, Pi L, Huang Y J, Tan S, Zhang Y H 2012 Appl. Phys. Lett. 101 192407

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Vol. 67, Issue 15 - 2018-08-05

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