Xilingolite Berlepsch P, Armbruster T, Makovicky E, Hejny C, Topa D, Graeser S The Canadian Mineralogist 39 (2001) 1653-1663 The crystal structure of (001) twinned xilingolite, Pb3Bi2S6, from Mittal-Hohtenn, Valais, Switzerland Locality: Mittal-Hohtenn, Valais, Switzerland _database_code_amcsd 0005755 CELL PARAMETERS: 13.5110 4.0850 20.6490 90.000 92.150 90.000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 1138.866 Density (g/cm3): 7.184 MAX. ABS. INTENSITY / VOLUME**2: 81.96839553 RIR: 3.715 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.57 9.76 10.3172 0 0 2 2 12.87 1.17 6.8782 0 0 3 2 15.41 1.49 5.7486 -2 0 2 2 17.19 2.28 5.1586 0 0 4 2 18.06 2.60 4.9109 -2 0 3 2 21.28 13.54 4.1751 -2 0 4 2 21.53 1.79 4.1269 0 0 5 2 22.08 17.19 4.0266 2 0 4 2 22.74 7.82 3.9100 1 1 0 4 23.11 2.45 3.8493 -1 1 1 4 23.20 3.39 3.8340 1 1 1 4 24.26 31.94 3.6694 -1 1 2 4 24.43 23.71 3.6431 1 1 2 4 24.86 100.00 3.5814 -2 0 5 2 25.72 87.24 3.4637 2 0 5 2 25.91 2.64 3.4391 0 0 6 2 26.09 45.94 3.4151 -1 1 3 4 26.34 54.11 3.3834 1 1 3 4 26.41 42.90 3.3754 4 0 0 2 26.60 11.81 3.3512 -4 0 1 2 26.93 18.43 3.3114 4 0 1 2 27.49 4.61 3.2442 -4 0 2 2 28.12 1.84 3.1731 4 0 2 2 28.49 9.25 3.1325 -1 1 4 4 28.69 7.58 3.1119 -2 0 6 2 28.80 15.25 3.0999 1 1 4 4 29.03 1.64 3.0762 -4 0 3 2 29.53 1.24 3.0248 3 1 0 4 29.59 16.79 3.0189 2 0 6 2 29.74 27.25 3.0037 -3 1 1 4 29.96 47.32 2.9820 3 1 1 4 30.59 54.21 2.9226 -3 1 2 4 31.02 52.91 2.8830 3 1 2 4 32.02 41.53 2.7950 -3 1 3 4 32.64 17.47 2.7435 3 1 3 4 32.69 10.30 2.7394 -2 0 7 2 33.63 8.77 2.6650 2 0 7 2 34.78 3.70 2.5793 0 0 8 2 34.93 1.81 2.5685 1 1 6 4 36.38 3.13 2.4695 -3 1 5 4 36.60 1.46 2.4554 -4 0 6 2 36.83 1.44 2.4401 -2 0 8 2 37.30 1.83 2.4108 3 1 5 4 38.03 8.76 2.3662 -1 1 7 4 38.44 15.31 2.3416 1 1 7 4 39.84 1.52 2.2627 -4 0 7 2 40.13 1.45 2.2469 -5 1 1 4 40.42 1.05 2.2318 5 1 1 4 41.74 36.84 2.1639 -1 1 8 4 41.76 1.41 2.1628 -6 0 3 2 41.80 7.65 2.1608 -5 1 3 4 42.10 1.10 2.1465 2 0 9 2 42.18 17.74 2.1424 1 1 8 4 42.62 12.03 2.1212 5 1 3 4 42.75 4.07 2.1154 6 0 3 2 43.26 15.78 2.0915 -6 0 4 2 43.32 21.90 2.0885 -5 1 4 4 43.88 16.06 2.0634 0 0 10 2 44.35 35.87 2.0425 0 2 0 2 44.38 18.67 2.0411 5 1 4 4 44.53 10.86 2.0348 6 0 4 2 45.16 6.64 2.0075 -6 0 5 2 45.25 7.04 2.0038 -5 1 5 4 45.64 8.60 1.9875 -3 1 8 4 45.65 3.25 1.9872 -1 1 9 4 46.11 2.62 1.9685 1 1 9 4 46.53 9.36 1.9517 5 1 5 4 46.70 3.82 1.9452 6 0 5 2 46.86 9.84 1.9386 3 1 8 4 47.07 3.93 1.9305 -4 0 9 2 48.85 4.74 1.8643 4 0 9 2 49.03 6.42 1.8579 5 1 6 4 49.21 3.02 1.8514 6 0 6 2 49.26 4.81 1.8497 -3 1 9 4 49.69 2.09 1.8347 -2 2 4 4 49.97 2.10 1.8251 -2 0 11 2 50.07 1.09 1.8219 -6 0 7 2 50.08 2.86 1.8216 2 2 4 4 50.20 8.16 1.8175 -5 1 7 4 50.56 8.11 1.8054 3 1 9 4 51.00 7.49 1.7907 -4 0 10 2 51.51 20.27 1.7742 -2 2 5 4 51.85 2.28 1.7634 5 1 7 4 51.98 18.74 1.7594 2 2 5 4 52.05 1.38 1.7571 6 0 7 2 52.36 10.15 1.7475 4 2 0 4 52.46 7.96 1.7441 7 1 0 4 52.47 2.74 1.7441 -4 2 1 4 52.50 1.80 1.7429 -7 1 1 4 52.65 4.30 1.7384 4 2 1 4 52.83 3.98 1.7330 7 1 1 4 52.86 4.82 1.7319 4 0 10 2 52.95 4.78 1.7294 -7 1 2 4 52.98 1.25 1.7285 -4 2 2 4 53.14 4.10 1.7236 -5 1 8 4 53.27 1.67 1.7195 0 0 12 2 53.68 1.58 1.7076 -2 2 6 4 54.22 3.81 1.6917 2 2 6 4 54.38 1.87 1.6872 -8 0 1 2 54.74 4.82 1.6770 8 0 1 2 54.79 2.63 1.6756 -8 0 2 2 55.50 3.24 1.6557 8 0 2 2 55.58 1.83 1.6535 -8 0 3 2 56.17 3.24 1.6375 -2 2 7 4 56.79 2.87 1.6211 2 2 7 4 57.56 1.10 1.6012 0 2 8 4 59.40 1.76 1.5560 -4 0 12 2 61.34 2.76 1.5113 -3 1 12 4 61.43 2.90 1.5094 4 0 12 2 62.83 2.39 1.4789 3 1 12 4 62.96 2.55 1.4763 -1 1 13 4 63.29 1.77 1.4694 6 2 3 4 63.49 6.09 1.4652 1 1 13 4 63.68 6.79 1.4613 -6 2 4 4 63.86 1.07 1.4576 -4 0 13 2 64.16 7.37 1.4516 0 2 10 4 64.66 4.91 1.4415 6 2 4 4 64.88 1.01 1.4372 -8 0 8 2 65.16 3.16 1.4317 -6 2 5 4 65.75 4.49 1.4203 -3 1 13 4 66.21 1.67 1.4114 -7 1 9 4 66.36 1.94 1.4086 6 2 5 4 66.66 1.90 1.4030 -4 2 9 4 67.69 1.55 1.3842 -8 0 9 2 68.09 2.43 1.3770 4 2 9 4 68.25 1.67 1.3742 1 1 14 4 68.39 1.57 1.3717 6 2 6 4 68.44 1.05 1.3708 -9 1 4 4 68.72 2.43 1.3660 7 1 9 4 69.01 1.06 1.3609 -2 2 11 4 69.18 1.50 1.3579 -2 0 15 2 69.36 1.29 1.3549 -7 1 10 4 69.80 3.03 1.3473 -9 1 5 4 69.85 1.18 1.3466 5 1 12 4 69.86 4.07 1.3465 -4 2 10 4 70.58 1.17 1.3344 -10 0 3 2 70.84 1.46 1.3302 -1 3 3 4 70.95 1.76 1.3283 1 3 3 4 71.41 2.80 1.3209 4 2 10 4 71.55 5.52 1.3186 9 1 5 4 71.75 1.06 1.3154 0 2 12 4 72.08 3.88 1.3103 7 1 10 4 72.64 1.01 1.3016 -3 3 1 4 72.69 1.08 1.3008 -8 2 1 4 72.75 1.84 1.2998 3 3 1 4 73.00 2.83 1.2961 8 2 1 4 73.04 1.54 1.2955 -8 2 2 4 73.08 2.08 1.2948 -3 3 2 4 73.31 2.06 1.2913 3 3 2 4 73.50 3.43 1.2884 -9 1 7 4 73.65 1.93 1.2862 8 2 2 4 73.72 1.17 1.2852 -8 2 3 4 73.86 1.81 1.2831 -3 3 3 4 76.46 4.28 1.2458 -7 1 12 4 77.05 1.22 1.2377 -4 2 12 4 77.72 1.15 1.2287 -1 1 16 4 78.69 1.51 1.2160 5 1 14 4 78.85 2.00 1.2139 4 2 12 4 79.85 2.69 1.2013 -1 3 8 4 80.14 1.38 1.1976 1 3 8 4 80.93 1.75 1.1879 -5 3 4 4 81.01 1.37 1.1869 2 0 17 2 81.67 1.48 1.1790 5 3 4 4 81.96 4.74 1.1755 11 1 0 4 84.57 1.18 1.1458 -8 2 9 4 85.96 1.19 1.1308 -2 2 15 4 87.74 1.02 1.1124 7 3 0 4 88.65 1.74 1.1033 -1 1 18 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.