压力下咸冰VII的制备与结构

The preparation and structure of salty ice VII under pressure.

作者信息

Klotz Stefan, Bove Livia E, Strässle Thierry, Hansen Thomas C, Saitta Antonino M

机构信息

IMPMC, CNRS-UMR 7590, Université P&M Curie, 75252 Paris, France.

出版信息

Nat Mater. 2009 May;8(5):405-9. doi: 10.1038/nmat2422. Epub 2009 Apr 6.

DOI:10.1038/nmat2422

PMID:19349969

Abstract

It is widely accepted that ice, no matter what phase, is unable to incorporate large amounts of salt into its structure. This conclusion is based on the observation that on freezing of salt water, ice expels the salt almost entirely as brine. Here, we show that this behaviour is not an intrinsic physico-chemical property of ice phases. We demonstrate by neutron diffraction that substantial amounts of dissolved LiCl can be built homogeneously into the ice VII structure if it is produced by recrystallization of its glassy (amorphous) state under pressure. Such 'alloyed' ice VII has significantly different structural properties compared with pure ice VII, such as an 8% larger unit cell volume, 5 times larger displacement factors, an absence of a transition to an ordered ice VIII structure and plasticity. Our study suggests that there could be a whole new class of 'salty' high-pressure ice forms.

摘要

人们普遍认为，无论处于何种相态，冰都无法在其结构中纳入大量盐分。这一结论基于以下观察结果：盐水结冰时，冰几乎会将盐分全部以卤水的形式排出。在此，我们表明这种行为并非冰相的固有物理化学性质。我们通过中子衍射证明，如果通过其玻璃态（非晶态）在压力下重结晶生成冰VII结构，大量溶解的LiCl可以均匀地融入其中。这种“合金化”的冰VII与纯冰VII相比具有显著不同的结构特性，例如晶胞体积大8%、位移因子大5倍、不存在向有序冰VIII结构的转变以及可塑性。我们的研究表明，可能存在一整个全新的“含盐”高压冰形态类别。

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压力下咸冰VII的制备与结构

The preparation and structure of salty ice VII under pressure.

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