Moeloite Orlandi P, Meerschaut A, Palvadeau P, Merlino S European Journal of Mineralogy 14 (2002) 599-606 Lead-antimony sulfosalts from Tuscany (Italy). V. Definition and crystal structure of moeloite, Pb6Sb6S14(S3), a new mineral from the Ceragiola marble quarry Locality: Tuscany, Italy _database_code_amcsd 0006941 CELL PARAMETERS: 15.3280 4.0400 23.0540 90.000 90.000 90.000 SPACE GROUP: P2_122_1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 1427.622 Density (g/cm3): 5.859 MAX. ABS. INTENSITY / VOLUME**2: 53.39932032 RIR: 2.968 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 6.93 6.32 12.7642 1 0 1 4 11.55 3.59 7.6640 2 0 0 2 12.17 31.89 7.2727 2 0 1 4 13.88 8.24 6.3821 2 0 2 4 19.00 10.41 4.6710 3 0 2 4 19.27 4.13 4.6063 2 0 4 4 20.11 1.61 4.4154 1 0 5 4 20.88 36.46 4.2547 3 0 3 4 22.00 13.64 4.0400 0 1 0 2 22.50 14.13 3.9509 2 0 5 4 23.09 37.11 3.8517 1 1 1 4 23.15 5.47 3.8423 0 0 6 2 23.21 1.08 3.8320 4 0 0 2 23.27 2.44 3.8233 3 0 4 4 23.88 77.86 3.7270 1 0 6 4 24.05 12.33 3.6999 1 1 2 4 24.48 1.16 3.6363 4 0 2 4 24.91 19.28 3.5739 2 1 0 4 25.22 39.19 3.5317 2 1 1 4 25.94 4.23 3.4348 2 0 6 4 25.98 100.00 3.4293 4 0 3 4 27.52 6.37 3.2406 2 1 3 4 27.70 10.10 3.2199 1 0 7 4 28.43 10.74 3.1395 3 1 1 4 29.08 1.14 3.0709 3 0 6 4 29.23 37.01 3.0556 3 1 2 4 29.41 65.34 3.0373 2 1 4 4 29.98 27.55 2.9806 1 1 5 4 30.51 9.57 2.9297 3 1 3 4 31.42 59.15 2.8474 5 0 3 4 31.68 17.38 2.8247 2 1 5 4 32.15 40.51 2.7842 0 1 6 4 32.24 22.69 2.7769 3 1 4 4 32.34 1.18 2.7682 3 0 7 4 32.69 63.24 2.7394 1 1 6 4 33.10 13.07 2.7066 5 0 4 4 33.21 7.43 2.6974 2 0 8 4 34.27 1.38 2.6169 2 1 6 4 34.30 10.24 2.6144 4 1 3 4 34.34 18.37 2.6116 3 1 5 4 35.66 1.30 2.5180 1 1 7 4 37.00 2.23 2.4294 2 0 9 4 37.12 26.52 2.4219 2 1 7 4 37.65 23.74 2.3891 5 1 2 4 38.55 2.27 2.3355 6 0 4 4 38.69 29.58 2.3274 5 1 3 4 39.35 12.72 2.2899 3 0 9 4 39.46 6.31 2.2836 3 1 7 4 40.10 1.30 2.2486 5 1 4 4 40.20 15.54 2.2433 2 1 8 4 40.36 3.68 2.2346 6 0 5 4 40.88 1.88 2.2077 2 0 10 4 41.42 2.87 2.1799 7 0 1 4 42.00 3.19 2.1512 7 0 2 4 42.03 3.28 2.1498 6 1 1 4 42.45 5.69 2.1296 4 0 9 4 42.60 2.45 2.1223 6 1 2 4 43.04 17.93 2.1014 3 0 10 4 43.54 11.67 2.0787 6 1 3 4 43.59 1.96 2.0765 1 0 11 4 44.83 22.69 2.0220 6 1 4 4 44.83 1.17 2.0216 2 0 11 4 44.87 33.94 2.0200 0 2 0 2 45.53 1.37 1.9921 3 1 9 4 45.70 2.83 1.9855 1 1 10 4 45.94 1.26 1.9755 4 0 10 4 46.18 8.59 1.9657 5 0 9 4 46.44 1.72 1.9554 6 1 5 4 46.67 2.85 1.9463 2 2 1 4 46.85 4.04 1.9390 3 0 11 4 46.90 1.29 1.9373 2 1 10 4 47.32 4.13 1.9212 0 0 12 2 47.39 11.31 1.9184 7 1 1 4 47.45 12.87 1.9160 8 0 0 2 47.57 2.85 1.9116 6 0 8 4 47.81 4.03 1.9025 7 0 6 4 47.91 9.07 1.8988 7 1 2 4 48.31 38.63 1.8839 4 1 9 4 48.85 2.12 1.8643 3 1 10 4 48.87 4.07 1.8635 2 0 12 4 48.89 1.20 1.8631 5 1 8 4 49.14 2.33 1.8541 3 2 2 4 49.26 1.99 1.8499 2 2 4 4 49.34 1.54 1.8468 1 1 11 4 49.47 2.66 1.8425 5 0 10 4 49.63 1.05 1.8369 1 2 5 4 49.98 7.74 1.8248 3 2 3 4 50.02 1.67 1.8235 7 0 7 4 50.45 3.10 1.8089 6 0 9 4 50.48 3.22 1.8079 2 1 11 4 50.55 4.04 1.8057 6 1 7 4 50.76 2.71 1.7986 2 2 5 4 51.44 1.39 1.7765 7 1 5 4 51.46 16.00 1.7759 1 2 6 4 51.90 1.69 1.7616 1 0 13 4 52.56 1.06 1.7412 2 2 6 4 52.58 19.15 1.7405 4 2 3 4 52.76 12.21 1.7350 0 1 12 4 52.99 6.41 1.7280 6 1 8 4 53.00 7.07 1.7277 2 0 13 4 53.05 1.07 1.7263 8 1 1 4 53.13 1.36 1.7240 1 1 12 4 53.22 1.90 1.7212 7 1 6 4 53.44 2.48 1.7146 8 0 6 4 53.54 1.62 1.7115 6 0 10 4 53.55 1.66 1.7112 1 2 7 4 55.48 3.56 1.6561 8 0 7 4 55.67 1.45 1.6509 6 1 9 4 55.80 15.83 1.6475 5 2 3 4 56.39 1.01 1.6317 3 2 7 4 56.81 1.97 1.6207 8 1 5 4 56.88 3.47 1.6188 5 2 4 4 56.95 2.02 1.6169 2 2 8 4 57.03 1.36 1.6148 1 1 13 4 57.22 1.30 1.6100 2 0 14 4 58.47 2.37 1.5784 8 1 6 4 59.36 6.03 1.5570 9 0 6 4 59.76 1.02 1.5476 3 1 13 4 60.39 1.14 1.5328 10 0 0 2 60.41 1.36 1.5324 8 1 7 4 60.54 1.17 1.5294 10 0 1 4 61.18 4.40 1.5148 3 2 9 4 61.22 1.45 1.5141 7 0 11 4 61.27 1.43 1.5128 9 0 7 4 61.92 1.62 1.4985 6 2 5 4 62.52 1.39 1.4857 9 1 5 4 62.71 2.13 1.4817 7 2 1 4 62.89 2.84 1.4777 7 1 10 4 63.14 1.78 1.4726 7 2 2 4 63.17 1.33 1.4718 3 0 15 4 63.47 3.78 1.4656 4 2 9 4 63.69 3.38 1.4612 3 1 14 4 63.93 7.73 1.4563 3 2 10 4 64.10 12.28 1.4528 9 1 6 4 64.34 1.42 1.4479 1 2 11 4 65.09 3.14 1.4331 10 1 0 4 65.23 3.78 1.4304 10 1 1 4 65.88 2.21 1.4178 7 1 11 4 65.97 1.78 1.4161 2 0 16 4 66.36 5.24 1.4088 5 2 9 4 66.89 1.64 1.3988 3 2 11 4 67.25 3.19 1.3921 0 2 12 4 67.36 6.89 1.3901 8 2 0 4 67.45 2.20 1.3885 6 2 8 4 67.65 2.36 1.3849 7 2 6 4 67.76 4.20 1.3829 3 1 15 4 68.03 1.08 1.3781 7 0 13 4 68.26 1.39 1.3739 5 0 15 4 68.51 1.78 1.3697 2 2 12 4 68.76 1.57 1.3653 5 1 14 4 68.99 1.36 1.3613 5 2 10 4 69.26 2.50 1.3566 8 0 12 4 69.44 1.03 1.3535 7 2 7 4 69.79 1.63 1.3475 6 2 9 4 69.94 3.70 1.3451 4 1 15 4 70.99 1.08 1.3277 1 2 13 4 71.21 1.16 1.3242 2 3 1 4 71.91 3.94 1.3130 2 2 13 4 72.18 1.17 1.3088 11 1 2 4 72.69 5.72 1.3008 5 1 15 4 73.14 1.55 1.2940 3 3 2 4 73.23 2.50 1.2926 2 3 4 4 73.52 1.14 1.2881 1 3 5 4 73.66 6.93 1.2861 8 1 12 4 74.02 2.22 1.2807 8 2 7 4 74.12 1.02 1.2793 4 1 16 4 74.32 1.29 1.2763 1 0 18 4 74.43 1.04 1.2747 2 3 5 4 74.69 1.22 1.2709 0 3 6 4 74.98 1.78 1.2666 11 1 5 4 74.99 4.29 1.2665 1 3 6 4 75.44 1.30 1.2600 12 0 3 4 75.80 1.20 1.2550 6 0 16 4 75.91 1.71 1.2535 4 3 3 4 77.39 4.37 1.2332 9 2 6 4 77.60 1.33 1.2303 2 3 7 4 77.93 1.34 1.2260 5 3 2 4 78.15 1.64 1.2231 11 1 7 4 78.43 1.02 1.2193 10 2 1 4 78.58 2.49 1.2174 5 3 3 4 78.61 4.43 1.2170 1 1 18 4 79.09 1.15 1.2109 9 2 7 4 79.56 1.30 1.2049 2 3 8 4 80.09 1.61 1.1982 10 0 12 4 80.79 1.02 1.1895 3 2 15 4 81.34 1.92 1.1830 10 1 11 4 82.72 1.91 1.1666 6 3 4 4 83.33 1.00 1.1597 10 0 13 4 83.34 1.08 1.1595 2 2 16 4 83.41 1.04 1.1588 1 1 19 4 84.58 1.21 1.1457 7 3 1 4 84.97 1.05 1.1415 7 3 2 4 85.27 3.92 1.1382 4 3 9 4 85.47 1.60 1.1361 5 2 15 4 86.40 2.28 1.1262 8 2 12 4 88.71 1.66 1.1027 0 3 12 4 89.00 1.49 1.0999 12 1 9 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.