Variable supercells in layered bismuth manganite controlled by oxygen pressure

Recently, layered materials have been extensively studied and attracted unprecedented attention. Layered oxides with superior properties have potential applications for nanoscale devices. Here, we report variable supercells in layered bismuth manganite controlled by oxygen pressure and reveal the st...

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Veröffentlicht in:	Applied physics letters 2020-07, Vol.117 (4)
Hauptverfasser:	Jin, Cai, Wang, Linjing, Han, Wenqiao, Zi, Mengfei, Liu, Qi, Hu, Songbai, Ye, Mao, Wang, Gan, Chen, Lang
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied physics Bismuth Layered materials Magnetic properties Manganites Nanoelectronics Nanotechnology devices Oxygen Physical properties Piezoelectricity
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container_title	Applied physics letters
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creator	Jin, Cai Wang, Linjing Han, Wenqiao Zi, Mengfei Liu, Qi Hu, Songbai Ye, Mao Wang, Gan Chen, Lang
description	Recently, layered materials have been extensively studied and attracted unprecedented attention. Layered oxides with superior properties have potential applications for nanoscale devices. Here, we report variable supercells in layered bismuth manganite controlled by oxygen pressure and reveal the strong piezoelectric responses from the layered supercells with tunable physical properties, including an approximately three-times difference in the magnetization range and 10% difference in the optical transmittance. The tunability of the sublattice from Bi3O3 to Bi2O2 in supercells is realized by a precise oxygen pressure control of 10 mTorr and 100 mTorr, respectively. The results presented here show a tantalizing opportunity to discover emerging multifunctional oxides for future nanoelectronics.
doi_str_mv	10.1063/5.0011096
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subjects	Applied physics Bismuth Layered materials Magnetic properties Manganites Nanoelectronics Nanotechnology devices Oxygen Physical properties Piezoelectricity
title	Variable supercells in layered bismuth manganite controlled by oxygen pressure
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