The effect of hydrostatic compression on the crystal structure of glycinium phosphite

N. Bogdanov, D. Korabel'nikov, I. Fedorov, B. Zakharov, E. Boldyreva
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引用次数: 1

Abstract

The crystal structure of glycinium phosphite (GPI) was studied in the pressure range from ambient to 6.5 GPa at 293 K using single-crystal X-ray diffraction. The changes in the unit-cell volume and parameters were continuous and anisotropic. The major compression was observed normal to the direction of the spontaneous polarization that occurs in this structure during a ferroelectric phase transition on cooling, whereas the structural compression along the b axis coinciding with the 21 axis was almost zero. The effect of pressure on the hydrogen bonds linking the H2PO3 tetrahedra into zigzag chains along the c axis was different from that on the hydrogen bonds connecting the glycinium cations with the H2PO3 tetrahedra in the (b × c) plane. The discontinuous changes in the geometries of selected hydrogen bonds at about 1.21 GPa may be evidence of a phase transition, e.g. into an ordered ferroelectric phase (with ordered positions of protons). The anisotropy of compression of GPI in the ferroelectric state (at 0 K) was studied using DFT calculations taking into account dispersive van der Waals interactions. The calculations predicted negative linear compressibility along the b axis.
静水压缩对亚磷酸甘氨酸晶体结构的影响
用单晶x射线衍射研究了室温~ 6.5 GPa、293 K温度下亚磷酸甘氨酸(GPI)的晶体结构。细胞体积和参数的变化是连续的、各向异性的。在冷却时发生铁电相变时,该结构的主要压缩方向为自发极化方向,而沿b轴与21轴重合的结构压缩几乎为零。压力对H2PO3四面体沿c轴形成之字形链的氢键的影响与对(b × c)平面上甘氨酸阳离子与H2PO3四面体连接的氢键的影响不同。在约1.21 GPa时,所选氢键几何形状的不连续变化可能是相变的证据,例如进入有序的铁电相(质子位置有序)。考虑色散范德华相互作用,利用DFT计算研究了GPI在铁电态(0 K)下压缩的各向异性。计算预测沿b轴的线性压缩性为负。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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