First-principles investigation of the highly tetragonal ferroelectric material Bi(Zn_(1/2)Ti_(1/2))O_3

Tingting Qi; Ilya Grinberg; Andrew M. Rappe

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First-principles investigation of the highly tetragonal ferroelectric material Bi(Zn_(1/2)Ti_(1/2))O_3

机译：高四方铁电体材料Bi（Zn_（1/2）Ti_（1/2））O_3的第一性原理研究

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First-principles calculations were performed to study the extremely tetragonal ferroelectric material Bi(Zn_(1/2)Ti_(1/2))O_3 (BZT). In agreement with experiment, we find that BZT displays extremely large cation displacements and tetragonality. Despite its high tetragonality and polarization, the local structure of the material exhibits a high degree of local disorder which is more typical of the solid solutions close to the morphotropic phase boundary. For the tetragonal phase of BZT, we show that a planar ordered (001) B-cation arrangement with the Zn and Ti stacking direction perpendicular to direction of P is the lowest in energy, in contrast with the (111) B-cation ordering usually found in perovskites. We attribute this unusual preference to the large cation displacements found in BZT, which raises the importance of A-B cation repulsive interactions, favoring separation of Zn and Ti cations.

机译：进行第一性原理计算以研究极四方铁电材料Bi（Zn_（1/2）Ti_（1/2））O_3（BZT）。与实验一致，我们发现BZT显示出极大的阳离子位移和四方性。尽管材料具有很高的四方性和极化性，但其局部结构仍表现出高度的局部无序性，这是靠近变质相边界的固溶体的典型特征。对于BZT的四方相，我们表明，与（111）B-阳离子有序排列相比，具有垂直于P方向的Zn和Ti堆积方向的平面有序（001）B-阳离子排列的能量最低。在钙钛矿中发现。我们将这种不寻常的偏好归因于BZT中发现的大量阳离子置换，这增加了A-B阳离子排斥相互作用的重要性，有利于Zn和Ti阳离子的分离。

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来源
《Physical review》 |2009年第9期|224-228|共5页
作者
Tingting Qi; Ilya Grinberg; Andrew M. Rappe;
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作者单位

The Makineni Theoretical Laboratories, Department of Chemistry, University of Pennsylvania, Philadelphia, Pennsylvania 19104-6323, USA;

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正文语种 eng
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关键词
niobates; titanates; tantalates; PZT ceramics; etc.; order-disorder transformations; statistical mechanics of model systems;

机译：铌酸盐钛酸酯钽酸盐PZT陶瓷;等;无序转换;模型系统的统计力学;

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First-principles investigation of the highly tetragonal ferroelectric material Bi(Zn_(1/2)Ti_(1/2))O_3

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