Cetineite Sabelli C, Nakai I, Katsura S American Mineralogist 73 (1988) 398-404 Crystal structures of cetineite and its synthetic Na analogue Na3.6(Sb2O3)3(SbS3)(OH)0.6.2.4(H2O) CELL PARAMETERS: 14.2513 14.2513 5.5900 90.000 90.000 120.000 SPACE GROUP: P6_3 X-RAY WAVELENGTH: 1.541838 MAX. ABS. INTENSITY / VOLUME**2: 50.55298093 2-THETA INTENSITY D-SPACING H K L 7.16 98.42 12.3420 1 0 0 12.42 9.76 7.1256 1 1 0 17.42 5.93 5.0921 1 0 1 19.02 22.49 4.6648 1 2 0 20.19 11.66 4.3981 1 1 1 21.45 35.24 4.1429 2 0 1 21.60 20.29 4.1140 3 0 0 24.86 32.06 3.5816 1 2 1 24.86 6.09 3.5816 2 1 1 26.03 12.50 3.4231 1 3 0 26.03 6.83 3.4231 3 1 0 26.91 24.69 3.3134 3 0 1 28.94 5.16 3.0855 4 0 0 29.74 62.82 3.0045 2 2 1 30.63 75.84 2.9192 1 3 1 30.63 24.16 2.9192 3 1 1 31.60 4.24 2.8314 2 3 0 32.02 33.02 2.7950 0 0 2 32.86 4.04 2.7260 1 0 2 33.16 9.14 2.7013 4 0 1 33.27 3.71 2.6932 1 4 0 33.27 22.68 2.6932 4 1 0 34.47 4.61 2.6020 1 1 2 36.40 2.76 2.4684 5 0 0 37.05 1.63 2.4263 1 4 1 37.51 3.54 2.3976 1 2 2 37.51 1.05 2.3976 2 1 2 37.88 1.64 2.3752 3 3 0 38.60 7.19 2.3324 4 2 0 40.70 3.01 2.2167 1 5 0 40.70 4.28 2.2167 5 1 0 41.04 1.22 2.1991 2 2 2 41.30 5.90 2.1861 3 3 1 41.72 11.42 2.1650 1 3 2 41.97 2.67 2.1526 4 2 1 43.70 1.06 2.0715 4 0 2 43.94 9.89 2.0606 1 5 1 44.02 1.10 2.0570 6 0 0 44.66 5.23 2.0290 3 4 0 45.61 8.16 1.9891 2 3 2 45.92 2.11 1.9763 2 5 0 45.92 6.46 1.9763 5 2 0 46.84 4.90 1.9394 1 4 2 46.84 7.62 1.9394 4 1 2 47.68 1.19 1.9073 4 3 1 48.36 6.84 1.8821 6 1 0 48.88 4.95 1.8633 2 5 1 49.25 5.42 1.8502 5 0 2 49.47 3.71 1.8425 1 0 3 51.00 1.79 1.7908 2 4 2 51.00 11.80 1.7908 4 2 2 51.21 9.11 1.7837 1 6 1 51.21 2.25 1.7837 6 1 1 51.86 8.01 1.7631 5 3 0 51.86 2.19 1.7631 7 0 0 52.70 4.87 1.7368 1 5 2 52.70 1.98 1.7368 5 1 2 54.03 2.53 1.6974 3 0 3 54.03 5.04 1.6973 4 4 1 55.67 7.85 1.6512 2 2 3 56.00 2.21 1.6420 3 4 2 56.21 5.42 1.6366 1 3 3 56.21 7.76 1.6366 3 1 3 57.08 2.39 1.6137 5 2 2 57.81 3.81 1.5950 4 0 3 58.40 1.49 1.5802 5 4 0 58.86 4.50 1.5690 1 7 1 59.18 3.76 1.5612 6 1 2 60.92 7.65 1.5206 5 4 1 61.75 2.12 1.5022 4 4 2 61.94 4.65 1.4981 3 6 1 62.26 11.58 1.4912 5 3 2 62.26 3.89 1.4912 7 0 2 62.26 1.03 1.4912 3 5 2 62.45 5.70 1.4872 8 0 1 63.45 1.32 1.4660 3 3 3 63.95 1.34 1.4558 2 4 3 63.95 1.54 1.4558 2 7 1 63.95 3.87 1.4558 7 2 1 65.43 1.33 1.4263 5 1 3 65.50 1.62 1.4251 5 5 0 66.90 1.02 1.3986 8 1 1 66.96 2.69 1.3975 0 0 4 68.17 1.97 1.3756 5 4 2 68.41 2.22 1.3714 1 1 4 69.31 1.27 1.3558 2 5 3 69.79 1.15 1.3476 3 7 1 69.85 3.90 1.3466 2 8 0 70.32 2.11 1.3387 1 2 4 71.21 1.09 1.3242 1 6 3 71.21 2.20 1.3242 6 1 3 73.55 1.69 1.2876 4 4 3 75.93 1.78 1.2532 2 3 4 76.62 1.01 1.2436 7 3 2 76.85 1.81 1.2404 1 4 4 77.71 1.71 1.2289 1 7 3 78.17 1.27 1.2228 8 3 1 78.68 1.35 1.2161 5 0 4 78.68 1.11 1.2161 9 2 0 78.91 1.88 1.2132 2 8 2 79.53 1.44 1.2052 5 4 3 80.44 1.67 1.1939 3 6 3 80.90 2.37 1.1883 9 2 1 82.25 1.47 1.1721 2 7 3 87.47 1.12 1.1151 9 2 2 87.64 1.34 1.1134 3 7 3 89.04 1.16 1.0995 4 4 4 89.48 3.37 1.0952 5 3 4 89.48 1.41 1.0952 7 0 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.