Sodium pyrosilicate
In today's world, Sodium pyrosilicate has gained great relevance in different areas. Its impact has been felt in society, culture, politics, the economy and many other aspects of daily life. From its origins to the present day, Sodium pyrosilicate has been the subject of study, debate and controversy. In this article, we will analyze the influence of Sodium pyrosilicate in contemporary society, exploring its main characteristics, as well as the challenges and opportunities it represents. Sodium pyrosilicate has become a ubiquitous phenomenon that deserves special attention to better understand its role today.
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| Other names
hexasodium diorthosilicate
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| Identifiers | |
3D model (JSmol)
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PubChem CID
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| Properties | |
| Na6O7Si2 | |
| Molar mass | 306.102 g·mol−1 |
Except where otherwise noted, data are given for materials in their standard state (at 25 °C , 100 kPa).
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Sodium pyrosilicate is the chemical compound Na
6Si
2O
7. It is one of the sodium silicates, specifically a pyrosilicate, formally a salt of the unstable pyrosilicic acid H
6Si
2O
7.[1][2]
Structure
The anhydrous solid has the triclinic crystal structure, with space group P1 (a = 5.8007(8) Å, b = 11.5811(15) Å, c = 23.157(3) Å, α = 89.709(10)°, β = 88.915(11)°, γ = 89.004(11)°, V = 1555.1(4) Å3, Z = 8, Dx = 2.615 g·cm−3, μ(Mo‐Kα) = 7.94 cm−1). The Si
2O6−
7 anions are arranged in layers parallel to the (100) plane, with the sodium cations distributed in 24 distinct crystallographic positions, coordinated by 4 to 6 near oxygen atoms. Some of the 4-coordinated sodium atoms can be interpreted as parallel columns of edge-sharing NaO
4 tetrahedra. The columnar arrangement forms tunnels that house the remaining sodium cations. Twinning at a microscopic scale simulates a much larger monoclinic C centered lattice (V′ = 6220 Å3, Z = 32).[3]
See also
- Sodium metasilicate, Na
2SiO
3 - Sodium orthosilicate, Na
4SiO
4
References
- ^ Myron C Waddell (1932): "Process of purifying technical sodium pyrosilicate hydrates". US patent US1931364A.
- ^ J. F. Schairer and N. L. Bowen (1956): "The system Na
2O—Al
2O
3—SiO
2". American Journal of Science, volume 254, issue 3, pages 129-195 doi:10.2475/ajs.254.3.129 - ^ Volker Kahlenberg, Thomas Langreiter, and Erik Arroyabe (2010): "Na6Si2O7 – The Missing Structural Link among Alkali Pyrosilicates". Zeitschrift für anorganishe und allgemeine Chemie (Journal for Inorganic and General Chemistry), volume 636, issue 11, pages 1974-1979. doi:10.1002/zaac.201000120