高压下的汞表现为过渡金属：第一性原理计算。

Mercury under Pressure acts as a Transition Metal: Calculated from First Principles.

机构信息

Beijing Computational Science Research Center, Beijing 100094 (P.R. China).

Institute of Condensed Matter Physics, Linyi University, Linyi 276005 (P.R. China).

出版信息

Angew Chem Int Ed Engl. 2015 Aug 3;54(32):9280-3. doi: 10.1002/anie.201503870. Epub 2015 Jul 1.

DOI:10.1002/anie.201503870

PMID:26136387

Abstract

The inclusion of Hg among the transition metals is readily debated. Recently, molecular HgF4 was synthesized in a low-temperature noble gas but the potential of Hg to form compounds beyond a +2 oxidation state in a stable solid remains unresolved. We propose high-pressure techniques to prepare unusual oxidation states of Hg-based compounds. Using an advanced structure search algorithm and first-principles electronic structure calculations, we find that under high pressure Hg in Hg-F compounds transfers charge from the d orbitals to the F, thus behaving as a transition metal. Oxidizing Hg to +4 and +3 yielded the thermodynamically stable compounds HgF4 and HgF3. The former consists of HgF4 planar molecules, a typical geometry for d(8) metal centers. HgF3 is metallic and ferromagnetic owing to the d(9) configuration of Hg, with a large gap between its partially occupied and unoccupied bands under high pressure.

摘要

汞被归入过渡金属的范畴颇具争议。最近，低温惰性气体中合成了四氟化汞，但汞是否能在稳定固体中形成超过+2 氧化态的化合物仍未得到解决。我们提出了高压技术来制备不同寻常的汞基化合物的氧化态。我们利用先进的结构搜索算法和第一性原理电子结构计算，发现高压下 Hg-F 化合物中 Hg 的 d 轨道向 F 转移电荷，从而表现为过渡金属。将 Hg 氧化至+4 和+3 得到了热力学稳定的化合物 HgF4 和 HgF3。前者由 HgF4 平面分子组成，这是 d(8)金属中心的典型几何结构。HgF3 是金属的且具有铁磁性，这归因于 Hg 的 d(9)构型，在高压下其部分占据和未占据带之间存在较大的能隙。

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高压下的汞表现为过渡金属：第一性原理计算。

Mercury under Pressure acts as a Transition Metal: Calculated from First Principles.

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