Emeleusite Johnsen O, Nielsen K, Sotofte I Zeitschrift fur Kristallographie 147 (1978) 297-306 The crystal structure of emeleusite, a novel example of sechser-doppelkette Locality: Igdlutalik Island, Julianchab District, Greenland _database_code_amcsd 0010800 CELL PARAMETERS: 10.0720 17.3370 14.0040 90.000 90.000 90.000 SPACE GROUP: Acam X-RAY WAVELENGTH: 1.541838 Cell Volume: 2445.354 Density (g/cm3): 2.810 MAX. ABS. INTENSITY / VOLUME**2: 7.100083968 RIR: 0.823 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.20 4.16 8.6685 0 2 0 2 12.64 33.10 7.0020 0 0 2 2 13.48 6.21 6.5702 1 2 0 4 16.27 1.29 5.4470 0 2 2 4 18.52 29.65 4.7912 1 2 2 8 19.42 6.36 4.5712 2 1 1 8 20.39 100.00 4.3545 2 2 0 4 20.49 58.45 4.3342 0 4 0 2 21.74 32.92 4.0884 2 0 2 4 22.33 1.82 3.9813 1 4 0 4 24.07 7.34 3.6978 2 2 2 8 24.15 1.99 3.6853 0 4 2 4 24.29 21.51 3.6644 2 3 1 8 25.44 36.39 3.5010 0 0 4 2 25.74 32.19 3.4609 1 4 2 8 27.48 6.83 3.2462 0 2 4 4 27.81 40.13 3.2084 3 1 1 8 27.95 39.48 3.1922 1 5 1 8 28.90 64.23 3.0897 1 2 4 8 30.05 4.13 2.9740 2 4 2 8 30.35 2.96 2.9454 2 3 3 8 30.95 4.26 2.8895 0 6 0 2 31.11 50.24 2.8746 2 0 4 4 31.30 7.17 2.8580 3 2 2 8 31.98 12.60 2.7983 2 5 1 8 32.82 16.26 2.7285 2 2 4 8 32.89 5.68 2.7235 0 4 4 4 33.28 5.88 2.6925 3 1 3 8 33.40 5.90 2.6829 1 5 3 8 33.55 1.83 2.6710 0 6 2 4 33.77 4.81 2.6542 3 4 0 4 34.10 50.04 2.6291 1 4 4 8 35.66 16.15 2.5180 4 0 0 2 35.83 26.25 2.5063 2 6 0 4 36.63 2.61 2.4533 4 1 1 8 36.90 1.94 2.4361 2 5 3 8 37.18 2.93 2.4181 4 2 0 4 37.54 2.40 2.3956 2 4 4 8 37.85 2.47 2.3770 3 5 1 8 37.96 1.73 2.3704 1 7 1 8 38.57 1.84 2.3340 0 0 6 2 38.58 6.76 2.3337 3 2 4 8 40.48 5.98 2.2285 0 6 4 4 41.06 2.96 2.1983 4 1 3 8 41.12 1.32 2.1950 2 7 1 8 41.22 12.76 2.1901 3 6 0 4 41.47 1.21 2.1772 4 4 0 4 41.50 7.69 2.1759 1 6 4 8 42.17 4.60 2.1428 3 5 3 8 42.27 4.38 2.1380 1 7 3 8 42.70 1.13 2.1176 2 0 6 4 42.75 13.79 2.1151 3 4 4 8 43.53 1.26 2.0791 4 4 2 8 43.75 1.73 2.0692 4 3 3 8 44.31 1.94 2.0442 4 0 4 4 44.46 2.88 2.0379 2 6 4 8 44.96 2.02 2.0162 4 5 1 8 45.02 2.25 2.0135 1 4 6 8 45.57 3.71 1.9906 2 8 0 4 45.59 7.50 1.9896 4 2 4 8 46.27 6.92 1.9621 5 2 0 4 47.92 3.72 1.8983 4 6 0 4 48.29 6.03 1.8848 5 3 1 8 48.55 7.59 1.8750 1 9 1 8 48.92 4.97 1.8617 4 1 5 8 49.06 2.07 1.8567 3 6 4 8 49.77 2.25 1.8322 4 6 2 8 49.90 6.05 1.8277 3 5 5 8 49.92 2.00 1.8267 5 4 0 4 49.99 6.74 1.8247 1 7 5 8 50.25 2.12 1.8157 0 6 6 4 50.34 6.97 1.8126 1 8 4 8 51.12 1.42 1.7869 1 6 6 8 51.29 1.62 1.7813 4 3 5 8 51.72 3.68 1.7676 5 4 2 8 52.19 4.43 1.7527 3 4 6 8 52.22 2.99 1.7518 4 7 1 8 52.26 17.37 1.7505 0 0 8 2 52.80 1.22 1.7337 0 10 0 2 53.53 6.31 1.7117 4 0 6 4 53.54 1.52 1.7116 5 2 4 8 53.59 1.28 1.7102 3 1 7 8 53.64 3.11 1.7086 1 10 0 4 53.66 10.21 1.7080 2 6 6 8 53.67 1.07 1.7077 1 5 7 8 55.03 5.68 1.6688 4 6 4 8 55.35 3.17 1.6599 1 10 2 8 55.38 1.20 1.6591 6 1 1 8 56.67 6.34 1.6242 2 2 8 8 56.71 3.66 1.6231 0 4 8 4 56.85 4.29 1.6195 5 4 4 8 57.01 6.14 1.6154 3 8 4 8 57.55 1.38 1.6015 6 3 1 8 59.52 5.12 1.5531 5 7 1 8 59.75 4.73 1.5476 1 11 1 8 60.27 3.21 1.5355 1 10 4 8 60.91 2.46 1.5209 4 9 1 8 61.24 8.72 1.5137 6 0 4 4 61.65 1.15 1.5045 3 10 2 8 61.75 2.50 1.5022 6 5 1 8 61.98 2.09 1.4972 0 6 8 4 62.06 1.61 1.4955 2 11 1 8 62.11 2.74 1.4944 5 6 4 8 62.69 1.12 1.4819 5 7 3 8 63.00 2.78 1.4754 5 8 0 4 63.68 4.10 1.4613 3 4 8 8 64.16 1.72 1.4515 6 6 0 4 64.87 8.02 1.4373 4 0 8 4 64.98 13.65 1.4351 2 6 8 8 65.16 1.17 1.4317 2 11 3 8 65.24 1.99 1.4301 1 12 0 4 65.30 1.02 1.4290 6 4 4 8 65.43 1.82 1.4265 7 1 1 8 65.70 3.65 1.4213 6 6 2 8 65.79 1.25 1.4194 7 2 0 4 65.80 2.16 1.4194 3 11 1 8 66.03 1.15 1.4149 0 12 2 4 66.29 7.89 1.4100 3 10 4 8 66.52 1.01 1.4057 1 5 9 8 67.40 2.07 1.3893 7 3 1 8 67.44 4.74 1.3887 2 12 0 4 67.62 2.64 1.3854 5 9 1 8 68.01 1.24 1.3785 5 3 7 8 68.22 1.58 1.3746 1 9 7 8 68.64 2.51 1.3674 3 6 8 8 68.74 7.85 1.3656 7 4 0 4 68.79 2.12 1.3647 5 7 5 8 69.01 2.47 1.3610 1 11 5 8 69.69 1.26 1.3492 2 0 10 4 70.08 1.63 1.3427 4 9 5 8 70.19 2.30 1.3408 6 6 4 8 70.60 1.06 1.3341 5 9 3 8 70.86 1.17 1.3298 6 5 5 8 71.03 1.09 1.3271 6 8 0 4 71.40 2.40 1.3211 1 4 10 8 71.48 4.66 1.3198 4 1 9 8 71.81 1.97 1.3145 2 8 8 8 71.84 2.68 1.3140 5 10 0 4 72.26 6.03 1.3075 3 5 9 8 72.33 5.76 1.3064 1 7 9 8 72.34 2.91 1.3062 5 2 8 8 73.38 1.40 1.2902 4 3 9 8 73.52 1.13 1.2882 2 4 10 8 74.18 1.62 1.2783 3 2 10 8 74.31 1.28 1.2764 7 1 5 8 74.66 1.57 1.2713 3 11 5 8 76.11 1.43 1.2507 8 1 1 8 77.14 1.82 1.2365 5 11 1 8 77.28 1.61 1.2346 3 13 1 8 77.69 1.04 1.2291 1 14 0 4 78.95 1.85 1.2126 8 1 3 8 79.80 1.12 1.2018 1 9 9 8 79.98 2.71 1.1996 5 11 3 8 80.11 2.54 1.1979 3 13 3 8 81.19 1.54 1.1847 8 0 4 4 81.60 2.28 1.1798 4 12 4 8 84.28 2.24 1.1490 1 2 12 8 85.39 1.40 1.1369 2 0 12 4 87.01 1.41 1.1199 1 4 12 8 87.84 1.07 1.1114 5 4 10 8 88.23 1.03 1.1075 1 12 8 8 88.72 2.04 1.1026 5 7 9 8 88.73 1.06 1.1025 7 2 8 8 88.92 2.31 1.1007 1 11 9 8 89.38 1.41 1.0962 8 6 4 8 89.93 1.20 1.0909 4 9 9 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.