理论预测表明，二氧化碳的III相和VII相是相同的。

Theoretical predictions suggest carbon dioxide phases III and VII are identical.

作者信息

Sontising Watit, Heit Yonaton N, McKinley Jessica L, Beran Gregory J O

机构信息

Department of Chemistry , University of California , Riverside , California 92521 , USA . Email:

出版信息

Chem Sci. 2017 Nov 1;8(11):7374-7382. doi: 10.1039/c7sc03267f. Epub 2017 Sep 5.

DOI:10.1039/c7sc03267f

PMID:29163888

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5672840/

Abstract

Solid carbon dioxide exhibits a rich phase diagram at high pressures. Metastable phase III is formed by compressing dry ice above ∼10-12 GPa. Phase VII occurs at similar pressures but higher temperatures, and its stability region is disconnected from III on the phase diagram. Comparison of large-basis-set quasi-harmonic second-order Møller-Plesset perturbation theory calculations and experiment suggests that the long-accepted structure of phase III is problematic. The experimental phase III and VII structures both relax to the same phase VII structure. Furthermore, Raman spectra predicted for phase VII are in good agreement with those observed experimentally for both phase III and VII, while those for the purported phase III structure agree poorly with experimental observations. Crystal structure prediction is employed to search for other potential structures which might account for phase III, but none are found. Together, these results suggest that phases III and VII are likely identical.

摘要

固态二氧化碳在高压下呈现出丰富的相图。通过在约10 - 12吉帕以上压缩干冰可形成亚稳的III相。VII相在类似压力但更高温度下出现，其稳定区域在相图上与III相不相连。大基组准谐二级莫勒-普莱斯特定则微扰理论计算与实验的比较表明，长期以来被接受的III相结构存在问题。实验中的III相和VII相结构都弛豫到相同的VII相结构。此外，预测的VII相拉曼光谱与实验观测到的III相和VII相的光谱都吻合良好，而所谓的III相结构的拉曼光谱与实验观测结果吻合较差。采用晶体结构预测来寻找其他可能解释III相的潜在结构，但未找到。综合这些结果表明，III相和VII相可能是相同的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6924/5672840/9509cd79ab7e/c7sc03267f-f1.jpg

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理论预测表明，二氧化碳的III相和VII相是相同的。

Theoretical predictions suggest carbon dioxide phases III and VII are identical.

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