Sodium magnesium sulfate is a double sulfate of sodium and magnesium. There are a number of different stoichiometries and degrees of hydration with different crystal structures, and many are minerals. Members include:
- Blödite or bloedite: sodium magnesium sulfate tetrahydrate Na2Mg(SO4)2•4H2O[1]
- Disodium magnesium disulfate decahydrate Na2Mg(SO4)2•10H2O[2]
- Disodium magnesium disulfate hexadecahydrate Na2Mg(SO4)2•16H2O[3]
- Na2SО4·MgSO4·2.5H2O[4]
- Konyaite Na2Mg(SO4)2•5H2O[5]
- Löweite Na12Mg7(SO4)13•15H2O.[6][7]
- Vanthoffite Na6Mg(SO4)4
- Na2Mg2(SO4)3 langbeinite form stable from 569.2 to 624.7°C[8]
- Na2Mg2(SO4)3 quenched monoclinic form[8]
- Na2Mg3(SO4)4 orthorhombic form[8]
- Na2Mg(SO4)2 triclinic form[8]
Salts containing other anions in addition to sulfate
- Na2Mg3(OH)2(SO4)4•4H2O[9]
- Tychite hexasodium dimagnesium sulfate tetracarbonate Na6Mg2SO4(CO3)4[10]
- Uklonskovite NaMgSO4F•2H2O[11]
References
edit- ^ Archibald, E. H.; Gale, W. A. (August 1924). "The System Magnesium Sulfate-Sodium Sulfate-Water and a Method for the Separation of the Salts". Journal of the American Chemical Society. 46 (8): 1760–1771. doi:10.1021/ja01673a002.
- ^ Leduc, Evelyne M. S.; Peterson, Ronald C.; Wang, Ruiyao (24 October 2009). "Sodium magnesium sulfate decahydrate, Na2Mg(SO4)2·10H2O, a new sulfate salt". Acta Crystallographica Section C. 65 (11): i81–i84. doi:10.1107/S0108270109028881. PMID 19893219.
- ^ Leftwich, K.; Bish, D. L.; Chen, C. H. (1 October 2013). "Crystal structure and hydration/dehydration behavior of Na2Mg(SO4)2•16H2O: A new hydrate phase observed under Mars-relevant conditions". American Mineralogist. 98 (10): 1772–1778. Bibcode:2013AmMin..98.1772L. doi:10.2138/am.2013.4509. S2CID 100629191.
- ^ Rakhmatzhanov, U. D.; Mirzakulov, Kh. Ch. (29 September 2023). "Polythermal Solubility of the MgSO4–Na2SО4–H2O System". Russian Journal of Inorganic Chemistry. doi:10.1134/S0036023623601642. S2CID 263274944.
- ^ "Konyaite: Konyaite mineral information and data". www.mindat.org.
- ^ "Löweite: Löweite mineral information and data". www.mindat.org.
- ^ Mineralogy Database, Mindat.org
- ^ a b c d Trussov, I.A.; Male, L.L.; Sanjuan, M.L.; Orera, A.; Slater, P.R. (April 2019). "Understanding the complex structural features and phase changes in Na2Mg2(SO4)3: A combined single crystal and variable temperature powder diffraction and Raman spectroscopy study". Journal of Solid State Chemistry. 272: 157–165. Bibcode:2019JSSCh.272..157T. doi:10.1016/j.jssc.2019.02.014. hdl:10261/192264. S2CID 104364241.
- ^ Kubel, Frank; Cabaret-Lampin, Marie (August 2013). "Syntheses and Structures of Na2Mg3(OH)2 (SO4)4·4H2O and K2Mg3(OH)3(SO4)4·2H2O". Zeitschrift für anorganische und allgemeine Chemie. 639 (10): 1782–1786. doi:10.1002/zaac.201300174.
- ^ Schmidt, Gregory R.; Reynard, Jacqueline; Yang, Hexiong; Downs, Robert T. (6 September 2006). "Tychite, Na6Mg2(SO4)(CO3)4 : structure analysis and Raman spectroscopic data". Acta Crystallographica Section E. 62 (10): i207–i209. doi:10.1107/S160053680603491X.
- ^ "Uklonskovite: Uklonskovite mineral information and data". www.mindat.org.
External links
edit- Evelyne Marie Sylvie Leduc (September 2010). HYDRATED SODIUM-MAGNESIUM SULFATE MINERALS ASSOCIATED WITH INLAND SALINE SYSTEMS Atomic structure, hydrogen bonding and phase stability (PDF) (Thesis). Queen’s University Kingston, Ontario, Canada.