Calcioferrite with composition (Ca(3.94)Sr(0.06))Mg(1.01)(Fe(2.93)Al(1.07))(PO(4))(6)(OH)(4)·12H(2)O

Calcioferrite, ideally Ca(4)MgFe(3+) (4)(PO(4))(6)(OH)(4)·12H(2)O (tetra­calcium magnesium tetrairon(III) hexakis-phosphate tetra­hydroxide dodeca­hydrate), is a member of the calcioferrite group of hydrated calcium phosphate minerals with the general formula Ca(4) AB (4)(PO(4))(6)(OH)(4)·12H(2)O, where A = Mg, Fe(2+), Mn(2+) and B = Al, Fe(3+). Calcioferrite and the other three known members of the group, montgomeryite (A = Mg, B = Al), kingsmountite (A = Fe(2+), B = Al), and zodacite (A = Mn(2+), B = Fe(3+)), usually occur as very small crystals, making their structure refinements by conventional single-crystal X-ray diffraction challenging. This study presents the first structure determination of calcioferrite with composition (Ca(3.94)Sr(0.06))Mg(1.01)(Fe(2.93)Al(1.07))(PO(4))(6)(OH)(4)·12H(2)O based on single-crystal X-ray diffraction data collected from a natural sample from the Moculta quarry in Angaston, Australia. Calcioferrite is isostructural with montgomeryite, the only member of the group with a reported structure. The calcioferrite structure is characterized by (Fe/Al)O(6) octa­hedra (site symmetries 2 and -1) sharing corners (OH) to form chains running parallel to [101]. These chains are linked together by PO(4) tetra­hedra (site symmetries 2 and 1), forming [(Fe/Al)(3)(PO(4))(3)(OH)(2)] layers stacking along [010], which are connected by (Ca/Sr)(2+) cations (site symmetry 2) and Mg(2+) cations (site symmetry 2; half-occupation). Hydrogen-bonding inter­actions involving the water mol­ecules (one of which is equally disordered over two positions) and OH function are also present between these layers. The relatively weaker bonds between the layers account for the cleavage of the mineral parallel to (010).