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Bi2Ga4O9中Bi3+孤对电子的立体化学活性在高达50 GPa时的持久性及高压相的晶体结构。

Persistence of the stereochemical activity of the Bi3+ lone electron pair in Bi2Ga4O9 up to 50 GPa and crystal structure of the high-pressure phase.

作者信息

Friedrich Alexandra, Juarez-Arellano Erick A, Haussühl Eiken, Boehler Reinhard, Winkler Björn, Wiehl Leonore, Morgenroth Wolfgang, Burianek Manfred, Mühlberg Manfred

机构信息

Institut für Geowissenschaften, Goethe Universität Frankfurt, Altenhöferallee 1, D-60438 Frankfurt am Main, Germany.

出版信息

Acta Crystallogr B. 2010 Jun;66(Pt 3):323-37. doi: 10.1107/S0108768110010104. Epub 2010 May 15.

Abstract

The crystal structure of the high-pressure phase of bismuth gallium oxide, Bi(2)Ga(4)O(9), was determined up to 30.5 (5) GPa from in situ single-crystal in-house and synchrotron X-ray diffraction. Structures were refined at ambient conditions and at pressures of 3.3 (2), 6.2 (3), 8.9 (1) and 14.9 (3) GPa for the low-pressure phase, and at 21.4 (5) and 30.5 (5) GPa for the high-pressure phase. The mode-Grüneisen parameters for the Raman modes of the low-pressure structure and the changes of the modes induced by the phase transition were obtained from Raman spectroscopic measurements. Complementary quantum-mechanical calculations based on density-functional theory were performed between 0 and 50 GPa. The phase transition is driven by a large spontaneous displacement of one O atom from a fully constrained position. The density-functional theory (DFT) model confirmed the persistence of the stereochemical activity of the lone electron pair up to at least 50 GPa in accordance with the crystal structure of the high-pressure phase. While the stereochemical activity of the lone electron pair of Bi(3+) is reduced at increasing pressure, a symmetrization of the bismuth coordination was not observed in this pressure range. This shows an unexpected stability of the localization of the lone electron pair and of its stereochemical activity at high pressure.

摘要

通过原位单晶内部和同步加速器X射线衍射,确定了氧化铋镓Bi(2)Ga(4)O(9)高压相的晶体结构,压力范围高达30.5 (5) GPa。在环境条件下以及低压相压力为3.3 (2)、6.2 (3)、8.9 (1)和14.9 (3) GPa时,以及高压相压力为21.4 (5)和30.5 (5) GPa时对结构进行了精修。通过拉曼光谱测量获得了低压结构拉曼模式的模式-格林艾森参数以及相变引起的模式变化。在0至50 GPa之间进行了基于密度泛函理论的量子力学补充计算。相变是由一个O原子从完全受限位置的大自发位移驱动的。密度泛函理论(DFT)模型证实,根据高压相的晶体结构,孤电子对的立体化学活性至少在50 GPa时仍然存在。虽然Bi(3+)孤电子对的立体化学活性在压力增加时降低,但在该压力范围内未观察到铋配位的对称化。这表明孤电子对的定位及其在高压下的立体化学活性具有意想不到的稳定性。

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