Comparison of thermodynamic stabilities and mechanical properties of CO[2], SiO[2], and GeO[2] polymorphs by first-principles calculations
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Abstract
The recent discovery that molecular CO[2] transforms under compression into carbon four-coordinated, 3-dimensional network solid phases has generated considerable interests on possible new phases in the fourth-main-group elemental oxides. Based on density-functional theory calculations, we have investigated the thermodynamic stability, mechanical properties and electronic structure of proposed guest-free clathrates, quartz and cristobalite phases for CO[2], SiO[2], and GeO[2], and the dry ice phase for CO[2]. It was predicted that a GeO[2]clathrate, likely a semiconductor, could be synthesized presumably with some suitable guest molecules. The hypothetical CO[2] guest-free clathrate phase was found hardly to be formed due to the large energy difference with respect to the other polymorphs. This phase is unstable at all pressures, which is also implied by its different electronic structure in comparison with SiO[2] and GeO[2]. Finally, the SiO[2]clathrate presents a uniquely high bulk modulus, which is higher than that of quartz and three times of the experimental data, might not be a weak point of ab-initio calculations such as pseudopotentials, correlation functional etc., instead it can be readily understood by the constraint as imposed by the high symmetry. Either temperature or an "exhausted" relaxation (without any symmetry constraint) can remedy this problem.
Journal
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- Journal of Chemical Physics
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Journal of Chemical Physics 137 (3), 2012-07-18
AIP Publishing
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Details 詳細情報について
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- CRID
- 1050845760724278144
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- NII Article ID
- 120005439710
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- NII Book ID
- AA00694991
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- ISSN
- 00219606
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- HANDLE
- 2433/187978
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- Text Lang
- en
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- Article Type
- journal article
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- Data Source
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- IRDB
- CiNii Articles