First-principles investigation of the ferroelectric, piezoelectric and nonlinear optical properties of LiNbO3-type ZnTiO3

First-principles investigation of the ferroelectric, piezoelectric and nonlinear optical properties of LiNbO3-type ZnTiO3

Abstract The newly synthesized LN-type ZnTiO3 (J. Am. Chem. Soc. 2014, 136, 2748) contains cations with the electronic configurations nd10 (Zn2+: 3d10) along with second-order Jahn-Teller (SOJT) nd0 (Ti4+: 3d0) cations. This is different from traditional ferroelectrics with the electric configuratio...

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Main Authors: Jing Zhang, Bin Xu, Yu-Sheng Wang, Zhen Qin, San-Huang Ke
Format: Article
Language:English
Published: Nature Publishing Group 2019-11-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-019-53986-6
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spelling doaj-52a9dff2493b4f3787247ad8f9b2d1582020-12-08T08:18:14ZengNature Publishing GroupScientific Reports2045-23222019-11-019111410.1038/s41598-019-53986-6First-principles investigation of the ferroelectric, piezoelectric and nonlinear optical properties of LiNbO3-type ZnTiO3Jing Zhang0Bin Xu1Yu-Sheng Wang2Zhen Qin3San-Huang Ke4School of of Physics and Electronics, North China University of Water Resources and Electric PowerSchool of of Physics and Electronics, North China University of Water Resources and Electric PowerSchool of of Physics and Electronics, North China University of Water Resources and Electric PowerSchool of of Physics and Electronics, North China University of Water Resources and Electric PowerSchool of Physics Science and Engineering, Tongji University, 1239 Siping RoadAbstract The newly synthesized LN-type ZnTiO3 (J. Am. Chem. Soc. 2014, 136, 2748) contains cations with the electronic configurations nd10 (Zn2+: 3d10) along with second-order Jahn-Teller (SOJT) nd0 (Ti4+: 3d0) cations. This is different from traditional ferroelectrics with the electric configurations of d0 transition metal ions or/and lone pair electrons of ns2. Using a first-principles approach based on density functional theory, we investigate the electronic structure, zone-center phonon modes, piezoelectric and nonlinear optical properties of the LiNbO3-type ZnTiO3. The electronic structure indicates that this compound is a wide direct-band-gap insulator. The results reveal that this compound is a good ferroelectric material with a large spontaneous polarization of 90.43μC/cm2. The Raman scattering peaks of A1 and E modes are assigned to their zone-center optical modes. Additionally, the large piezoelectric and nonlinear optical susceptibilities reveal that LiNbO3-type ZnTiO3 is a high-performance lead-free piezoelectric and nonlinear optical crystal.https://doi.org/10.1038/s41598-019-53986-6
collection DOAJ
language English
format Article
sources DOAJ
author Jing Zhang
Bin Xu
Yu-Sheng Wang
Zhen Qin
San-Huang Ke
spellingShingle Jing Zhang
Bin Xu
Yu-Sheng Wang
Zhen Qin
San-Huang Ke
First-principles investigation of the ferroelectric, piezoelectric and nonlinear optical properties of LiNbO3-type ZnTiO3
Scientific Reports
author_facet Jing Zhang
Bin Xu
Yu-Sheng Wang
Zhen Qin
San-Huang Ke
author_sort Jing Zhang
title First-principles investigation of the ferroelectric, piezoelectric and nonlinear optical properties of LiNbO3-type ZnTiO3
title_short First-principles investigation of the ferroelectric, piezoelectric and nonlinear optical properties of LiNbO3-type ZnTiO3
title_full First-principles investigation of the ferroelectric, piezoelectric and nonlinear optical properties of LiNbO3-type ZnTiO3
title_fullStr First-principles investigation of the ferroelectric, piezoelectric and nonlinear optical properties of LiNbO3-type ZnTiO3
title_full_unstemmed First-principles investigation of the ferroelectric, piezoelectric and nonlinear optical properties of LiNbO3-type ZnTiO3
title_sort first-principles investigation of the ferroelectric, piezoelectric and nonlinear optical properties of linbo3-type zntio3
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2019-11-01
description Abstract The newly synthesized LN-type ZnTiO3 (J. Am. Chem. Soc. 2014, 136, 2748) contains cations with the electronic configurations nd10 (Zn2+: 3d10) along with second-order Jahn-Teller (SOJT) nd0 (Ti4+: 3d0) cations. This is different from traditional ferroelectrics with the electric configurations of d0 transition metal ions or/and lone pair electrons of ns2. Using a first-principles approach based on density functional theory, we investigate the electronic structure, zone-center phonon modes, piezoelectric and nonlinear optical properties of the LiNbO3-type ZnTiO3. The electronic structure indicates that this compound is a wide direct-band-gap insulator. The results reveal that this compound is a good ferroelectric material with a large spontaneous polarization of 90.43μC/cm2. The Raman scattering peaks of A1 and E modes are assigned to their zone-center optical modes. Additionally, the large piezoelectric and nonlinear optical susceptibilities reveal that LiNbO3-type ZnTiO3 is a high-performance lead-free piezoelectric and nonlinear optical crystal.
url https://doi.org/10.1038/s41598-019-53986-6
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AT binxu firstprinciplesinvestigationoftheferroelectricpiezoelectricandnonlinearopticalpropertiesoflinbo3typezntio3
AT yushengwang firstprinciplesinvestigationoftheferroelectricpiezoelectricandnonlinearopticalpropertiesoflinbo3typezntio3
AT zhenqin firstprinciplesinvestigationoftheferroelectricpiezoelectricandnonlinearopticalpropertiesoflinbo3typezntio3
AT sanhuangke firstprinciplesinvestigationoftheferroelectricpiezoelectricandnonlinearopticalpropertiesoflinbo3typezntio3
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