This report presents the first crystal structure determination of the mineral schaurteite, ideally Ca₃Ge(SO₄)₂(OH)₆·3H₂O, tricalcium germanium bis­(sulfate) hexa­hydroxide trihydrate. This single-crystal X-ray diffraction study investigated a natural sample from the type locality at Tsumeb, Namibia. Schaurteite is a member of the fleischerite group of minerals, which also includes fleischerite, despujolsite, and mallestigite. The structure of schaurteite consists of slabs of Ca(O,OH,H₂O)₈ polyhedra (site symmetry mm2) inter­leaved with a mixed layer of Ge(OH)₆ octa­hedra (-3m.) and SO₄ tetra­hedra (3m.). There are two H atoms in the asymmetric unit, both located by full-matrix refinement, and both forming O—HO hydrogen bonds.

Pirquitasite, ideally Ag₂ZnSnS₄ (disilver zinc tin tetra­sulfide), exhibits tetra­gonal symmetry and is a member of the stannite group that has the general formula A₂BCX₄, with A = Ag, Cu; B = Zn, Cd, Fe, Cu, Hg; C = Sn, Ge, Sb, As; and X = S, Se. In this study, single-crystal X-ray diffraction data are used to determine the structure of pirquitasite from a twinned crystal from the type locality, the Pirquitas deposit, Jujuy Province, Argentina, with anisotropic displacement parameters for all atoms, and a measured composition of (Ag_1.87Cu_0.13)(Zn_0.61Fe_0.36Cd_0.03)SnS₄. One Ag atom is located on Wyckoff site Wyckoff 2a (symmetry -4..), the other Ag atom is statistically disordered with minor amounts of Cu and is located on 2c (-4..), the (Zn, Fe, Cd) site on 2d (-4..), Sn on 2b (-4..), and S on general site 8g. This is the first determination of the crystal structure of pirquitasite, and our data indicate that the space group of pirquitasite is I-4, rather than I-42m as previously suggested. The structure was refined under consideration of twinning by inversion [twin ratio of the components 0.91 (6):0.09 (6)].

Agardite-(Y), with a refined formula of Cu²⁺_5.70(Y_0.69Ca_0.31)[(As_0.83P_0.17)O₄]₃(OH)₆·3H₂O [ideally Cu²⁺₆Y(AsO₄)₃(OH)₆·3H₂O, hexa­copper(II) yttrium tris­(arsenate) hexa­hydroxide trihydrate], belongs to the mixite mineral group which is characterized by the general formula Cu²⁺₆A(TO₄)₃(OH)₆·3H₂O, where nine-coordinated cations in the A-site include rare earth elements along with Al, Ca, Pb, or Bi, and the T-site contains P or As. This study presents the first structure determination of agardite-(Y). It is based on the single-crystal X-ray diffraction of a natural sample from Jote West mine, Pampa Larga Mining District, Copiapo, Chile. The general structural feature of agardite-(Y) is characterized by infinite chains of edge-sharing CuO₅ square pyramids (site symmetry 1) extending down the c axis, connected in the ab plane by edge-sharing YO₉ polyhedra (site symmetry -6..) and corner-sharing AsO₄ tetra­hedra (site symmetry m..). Hy­droxyl groups occupy each corner of the CuO₅-square pyramids not shared by a neighboring As or Y atom. Each YO₉ polyhedron is surrounded by three tubular channels. The walls of the channels, parallel to the c axis, are six-membered hexa­gonal rings comprised of CuO₅ and AsO₄ polyhedra in a 2:1 ratio, and contain free mol­ecules of lattice water.