Quartz: structural and thermodynamic analyses across the α β transition with origin of negative thermal expansion (NTE) in β quartz and calcite
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- 作者:Sytle M. Antao
- 关键词:quartz ; high-temperature studies ; Rietveld refinement ; thermodynamic modeling ; negative thermal expansion (NTE) ; Landau theory
- 刊名:Acta Crystallographica Section B
- 出版年:2016
- 出版时间:April 2016
- 年:2016
- 卷:72
- 期:2
- 页码:249-262
- 全文大小:2761K
- ISSN:2052-5206
文摘
The temperature variation, T, of the crystal structure of quartz, SiO2, from 298 to 1235 K was obtained with synchrotron powder X-ray diffraction data and Rietveld structure refinements. The polymorphic transformation from P3221 (low-T, α quartz) to P6222 (high-T, β quartz) occurs at a transition temperature, Ttr = 847 K. The T variations of spontaneous strains and several structural parameters are fitted to an order parameter, Q, using Landau theory. The change in Si atom coordinate, Six, gives Ttr − Tc = 0.49 K, which indicates an α β transition that is weakly first order and nearly tricritical in character (Q4 ∝ T). Strains give higher Ttr − Tc values (≃ 7 K). Other fitted parameters are the oxygen Oz coordinate, Si—Si distance, Si—O—Si and ϕ angles, and intensity of the (111) reflection, I111. In α quartz, the Si—Si distance increases with T because of cation repulsion, so the Si—O—Si angle increases (and ϕ decreases) and causes the thermal expansion of the framework structure that consists of corner-sharing distorted rigid SiO4 tetrahedra. The Si—Si distances contract with T and cause negative thermal expansion (NTE) in β quartz because of increasing thermal librations of the O atom in the Si—O—Si linkage that occur nearly perpendicular to the Si—Si contraction. In calcite, CaCO3, the short Ca—Ca distance expands with T, but the next-nearest Ca—Ca distance, which is of equal length to the a axis, contracts with T and causes NTE along the a axis. The thermal librations of the atoms in the rigid CO3 group increase with T along the c axis.