Martinite, ideally (Na,□,Ca) 12 Ca 4 (Si,S,B) 14 B 2 O 38 (OH,Cl) 2 F 2 ·4H 2 O, is a new mineral species from the Poudrette quarry, Mont Saint-Hilaire, Quebec. The mineral arose through the interaction of highly fractionated, hyperagpaitic fluids with sodalite syenite xenoliths. Martinite develops both as single crystals and as rosettes of triangular to roughly hexagonal plates varying from 50 μm to a maximum of about 1 mm across. Individual crystals are typically 2− x S minerals (UK55 group), UK53a, UK73, UK82, UK91 and a lollingite-like mineral. The mineral has a vitreous luster, is transparent, has a white streak and shows no fluorescence in either short- or long-wave ultraviolet radiation. It has a Mohs hardness of 4; the crystals are inelastic, and have a perfect cleavage on {001}. It is brittle with an uneven fracture. The calculated density is 2.51 g/cm 3 . Martinite is non-pleochroic, optically biaxial (−), with α 1.529(1), β 1.549(1), γ1.551(1) (for λ = 590 nm), 2 V meas = 38(1)°, 2 V calc = 35(1)°; no dispersion was noted. The optical orientation is X ≈ c . On average, 19 electron-microprobe analyses gave: Na 2 O 17.70, MgO 0.03, CaO 16.71, MnO 0.07, B 2 O 3 (calc.) 5.02, SiO 2 48.85, TiO 2 0.06, SO 3 2.30, F 2.18, Cl 1.09 and H 2 O (calc.) 4.44, O=F+Cl −1.17, total 97.28 wt.%. The empirical formula (based on 46 anions) is: (Na 9.19 □ 1.99 Ca 0.82 ) ∑12 (Ca 3.97 Mn 0.02 Mg 0.01 ) ∑4 (Si 13.08 S 0.46 B 0.45 Ti 0.01 ) ∑14.00 B 2 O 38 (OH 1.50 Cl 0.50 ) ∑2.00 (F 1.84 OH 0.16 ) ∑2 ·4H 2 O. The principal absorption bands in the infrared spectrum include 3437, 1634 and 1011 cm −1 (shoulders at 1137, 1081, 898 and 862 cm −1 ) and five bands in the region 786–498 cm −1 . The mineral is triclinic, space group P 1, a 9.5437(7), b 9.5349(6), c 14.0268(10) A, α 108.943(1), β 74.154(1), γ119.780(1)°, V 1038.1(1) A 3 , Z = 2. The strongest seven lines in the X-ray powder-diffraction pattern [ d in A( I )( hkl )] are: 13.18(100)(001), 6.58(43)(002), 2.968(37)(130), 3.29(34)(004,220), 2.908(27)(323), 3.02(17)(211), 2.800(17)(212). The structure of martinite has been refined to R = 6.30, wR 2 = 13.82%. The mineral is strongly layered, with sheets of tetrahedra ( T ), octahedra ( O ) and interlayer cations ( X ). The T layers are composed of six-membered rings of SiO 4 tetrahedra linked by [(Si,B)]O 4 and (BO 4 ) tetrahedra. The sheets of octahedra are composed of edge-sharing M ϕ 6 octahedra ( M : Na,Ca; ϕ: unspecified ligand) arranged in a closest-packed arrangement. The O sheets are effectively sandwiched between two symmetrically equivalent T layers ( T 2 , & T macr; 2 ), producing a strongly bonded T – O – T unit. The interlayer component ( X ) houses poorly ordered Na polyhedra and H 2 O molecules. Stacking of these principal components perpendicular to [001] results in a OT 2 X & T macr; 2 O module. Martinite is a member of the reyerite–gyrolite group. It represents the first B-bearing mineral of the group and the first mineral known to possess the OT 2 X & T macr; 2 O module. The name honors Robert Francois Martin (b. 1941), Professor of Geology at McGill University and long-time editor of The Canadian Mineralogist .