Likasite Effenberger H Neues Jahrbuch fur Mineralogie, Monatshefte 1986 (1986) 101-110 Likasite, Cu3(OH)5(NO3)*2(H2O): Revision of the chemical formula and redetermination of the crystal structure Locality: Likasi Mine, Zaire _database_code_amcsd 0014798 CELL PARAMETERS: 5.8300 6.7750 21.7110 90.000 90.000 90.000 SPACE GROUP: Pcmn X-RAY WAVELENGTH: 1.541838 Cell Volume: 857.547 Density (g/cm3): 2.889 MAX. ABS. INTENSITY / VOLUME**2: 27.16396424 RIR: 3.062 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.14 97.10 10.8555 0 0 2 2 15.42 100.00 5.7475 0 1 2 4 15.74 26.65 5.6305 1 0 1 4 16.33 2.86 5.4278 0 0 4 2 19.55 10.63 4.5401 1 0 3 4 20.51 3.29 4.3303 1 1 1 8 20.97 15.99 4.2360 0 1 4 4 23.59 2.22 3.7715 1 1 3 8 24.60 2.41 3.6185 0 0 6 2 25.58 11.62 3.4824 1 0 5 4 26.00 1.42 3.4269 1 1 4 8 26.31 15.97 3.3875 0 2 0 2 27.58 8.44 3.2337 0 2 2 4 27.95 14.57 3.1918 0 1 6 4 28.83 5.54 3.0972 1 1 5 8 30.80 9.26 2.9027 1 2 1 8 31.12 7.02 2.8737 0 2 4 4 31.79 1.62 2.8153 2 0 2 4 31.97 1.71 2.7997 1 1 6 8 32.70 2.76 2.7382 1 0 7 4 32.99 16.41 2.7150 1 2 3 8 33.01 7.03 2.7139 0 0 8 2 33.13 1.90 2.7039 2 0 3 4 33.73 24.68 2.6575 2 1 1 8 34.50 9.74 2.5997 2 1 2 8 34.94 6.69 2.5681 2 0 4 4 35.64 27.45 2.5193 0 1 8 4 35.75 2.26 2.5113 2 1 3 8 36.33 5.69 2.4730 0 2 6 4 37.02 3.75 2.4282 1 2 5 8 39.71 4.44 2.2700 2 0 6 4 40.47 1.00 2.2290 1 0 9 4 40.81 1.59 2.2110 0 3 2 4 40.84 12.27 2.2095 2 2 0 4 41.06 3.19 2.1982 2 2 1 8 41.60 15.39 2.1711 0 0 10 2 41.72 10.48 2.1652 2 2 2 8 42.56 4.14 2.1241 2 0 7 4 42.79 13.42 2.1132 2 2 3 8 44.53 1.02 2.0346 1 0 10 4 46.94 1.28 1.9356 3 0 1 4 47.46 1.42 1.9158 0 3 6 4 47.71 2.15 1.9061 2 1 8 8 48.50 1.29 1.8768 3 0 3 4 48.71 1.78 1.8695 1 0 11 4 48.91 1.03 1.8621 1 2 9 8 50.73 12.17 1.7996 2 2 7 8 50.95 3.88 1.7923 2 1 9 8 51.35 11.51 1.7793 2 3 1 8 51.91 5.66 1.7616 2 3 2 8 52.34 2.04 1.7480 0 1 12 4 52.73 3.38 1.7359 0 3 8 4 52.82 1.13 1.7333 2 3 3 8 53.48 4.57 1.7135 2 2 8 8 54.15 8.14 1.6938 0 4 0 2 54.61 1.31 1.6806 3 2 1 8 54.86 1.12 1.6735 0 4 2 4 55.67 2.59 1.6511 2 3 5 8 56.01 1.26 1.6417 3 2 3 8 56.20 1.66 1.6368 1 2 11 8 56.48 2.20 1.6294 2 2 9 8 56.76 1.16 1.6220 1 4 1 8 57.39 2.38 1.6055 1 0 13 4 58.06 1.62 1.5888 2 1 11 8 58.76 1.42 1.5714 3 2 5 8 59.71 7.28 1.5486 2 2 10 8 60.81 1.42 1.5231 1 4 5 8 61.89 1.28 1.4991 2 1 12 8 62.25 1.87 1.4915 2 3 8 8 62.73 1.51 1.4811 3 2 7 8 63.17 1.60 1.4720 2 2 11 8 64.03 1.67 1.4542 4 0 1 4 64.71 1.10 1.4404 1 4 7 8 64.89 1.31 1.4369 0 4 8 4 64.97 1.57 1.4354 2 4 3 8 64.99 2.68 1.4350 2 3 9 8 65.31 1.99 1.4288 4 0 3 4 65.67 2.30 1.4218 4 1 1 8 66.08 2.47 1.4139 2 4 4 8 66.29 2.35 1.4101 0 2 14 4 67.83 1.07 1.3817 3 2 9 8 69.21 2.02 1.3575 2 4 6 8 69.42 3.16 1.3539 4 1 5 8 69.97 1.68 1.3446 0 5 2 4 70.31 1.25 1.3388 4 2 0 4 70.52 3.20 1.3354 0 4 10 4 71.20 2.14 1.3243 2 4 7 8 71.22 1.50 1.3240 2 3 11 8 71.52 1.44 1.3191 4 0 7 4 74.70 1.01 1.2708 2 3 12 8 75.47 1.04 1.2596 0 2 16 4 77.86 1.85 1.2269 4 1 9 8 78.98 1.73 1.2123 0 5 8 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.