关于PdSe₂的PdS₂型和黄铁矿型结构相对稳定性的实验与理论研究。

Experimental and theoretical investigation on the relative stability of the PdS2- and pyrite-type structures of PdSe2.

作者信息

Soulard C, Rocquefelte X, Petit P-E, Evain M, Jobic S, Itié J-P, Munsch P, Koo H-J, Whangbo M-H

机构信息

Laboratoire de Chimie des Solides (UMR 6502), Institut des Matériaux Jean Rouxel, 2 Rue de la Houssinière, BP 32229, 44322 Nantes Cedex 3, France.

出版信息

Inorg Chem. 2004 Mar 22;43(6):1943-9. doi: 10.1021/ic0352396.

DOI:10.1021/ic0352396

PMID:15018514

Abstract

Under ambient condition PdSe2 has the PdS2-type structure. The crystal structure of PdSe2 under pressure (up to 30 GPa) was investigated at room temperature by X-ray diffraction in an energy-dispersive configuration using a diamond anvil cell with a mixture of water/ethanol/methanol as a pressure transmitting medium. A reversible structural transition from the PdS2-type to the pyrite-type structure occurs around 10 GPa, and the applied pressure reduces the spacing between adjacent 2/proportional to [PdSe2] layers of the PdS2-type structure to form the three-dimensional lattice of the pyrite-type structure. First principles and extended Hückel electronic band structure calculations were carried out to confirm the observed pressure-induced structural changes. We also examined why the isoelectronic analogues NiSe2 and PtSe2 adopt structures different from the PdS2-type structure on the basis of qualitative electronic structure considerations.

摘要

在环境条件下，PdSe₂具有PdS₂型结构。在室温下，使用金刚石对顶砧池，以水/乙醇/甲醇的混合物作为压力传递介质，通过能量色散配置的X射线衍射研究了压力高达30 GPa时PdSe₂的晶体结构。在10 GPa左右发生了从PdS₂型到黄铁矿型结构的可逆结构转变，施加的压力减小了PdS₂型结构中相邻2/[PdSe₂]层之间的间距，以形成黄铁矿型结构的三维晶格。进行了第一性原理和扩展休克尔电子能带结构计算，以证实观察到的压力诱导结构变化。我们还基于定性电子结构考虑，研究了等电子类似物NiSe₂和PtSe₂为何采用不同于PdS₂型结构的结构。

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关于PdSe₂的PdS₂型和黄铁矿型结构相对稳定性的实验与理论研究。

Experimental and theoretical investigation on the relative stability of the PdS2- and pyrite-type structures of PdSe2.

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