Structure of Magnesium Hydroxide Sulfate [2MgSO4.Mg(OH)2] and Solid Solution in Magnesium Hydroxide Sulfate Hydrate and Caminite

Abstract

Magnesium hydroxide sulfate [2MgSO₄.Mg(OH)₂; MHS] is tetragonal with a = 7.454 (1), c = 12.885 (2) Å, V = 716.0 ų, space group P4₃2₁2, Z = 4 and D _x 2.774 g cm⁻³. The structure (single-crystal X-ray, R = 0.025, wR = 0.023) comprises spiral (43) single chains of corner-shared Mg(2) octahedra cross-linked by SO₄ tetrahedra and face-shared Mg(1) octahedra. A linear ternary group of face-shared Mg octahedra [Mg(2)—Mg(1)—Mg(2)] alternates with an unoccupied octahedral position in rows along [\overline 110]. A crystal of MHS was grown hydrothermally (0.15 GPa, 673 K) from gold-bearing Mg—S—O—H fluid. The MHS structure, with Mg(1) octahedra sharing two octahedral faces with Mg(2) octahedra, revises the structure assumed for the complex solid solution magnesium hydroxide sulfate hydrate and the related ocean-floor mineral caminite [2MgSO₄.xMg(OH)₂.(2 − 2x)H₂O; 0.5 < x < 1.0]. The substitution reaction appears to be Mg(1⁾²⁺ ⇋ 2H⁺. The H-substituted MHS structure is distinguished from that of kieserite (MgSO₄.H₂O), which has straight single chains of corner-shared Mg octahedra.