Buttgenbachite Hibbs D E, Leverett P, Williams P A Mineralogical Magazine 67 (2003) 47-60 A single crystal X-ray study of a sulphate-bearing buttgenbachite, Cu36Cl7.8(NO3)1.3(SO4)0.35(OH)62.2.5.2H2O, and a re-examination of the crystal chemistry of the buttgenbachite-connellite series Locality: Likasi, Democratic Republic of Congo Note: T = 288 K _database_code_amcsd 0018303 CELL PARAMETERS: 15.7390 15.7390 9.1270 90.000 90.000 120.000 SPACE GROUP: P6_3/mmc X-RAY WAVELENGTH: 1.541838 Cell Volume: 1958.001 Density (g/cm3): 3.130 MAX. ABS. INTENSITY / VOLUME**2: 39.41431353 RIR: 4.100 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 6.48 100.00 13.6304 1 0 0 6 11.24 88.71 7.8695 1 1 0 6 12.99 1.80 6.8152 2 0 0 6 16.23 12.75 5.4608 2 0 1 12 17.21 21.69 5.1518 2 1 0 12 19.54 11.95 4.5435 3 0 0 6 19.79 2.04 4.4864 2 1 1 24 20.52 6.75 4.3274 1 0 2 12 21.85 1.10 4.0674 3 0 1 12 22.52 6.44 3.9477 1 1 2 12 22.60 1.43 3.9348 2 2 0 6 23.46 15.61 3.7919 2 0 2 12 23.53 2.18 3.7804 3 1 0 12 26.09 17.85 3.4160 2 1 2 24 26.15 1.09 3.4076 4 0 0 6 27.71 19.84 3.2198 3 0 2 12 27.95 10.31 3.1924 4 0 1 12 30.21 1.12 2.9582 3 2 1 24 31.64 2.02 2.8280 4 1 1 24 32.80 35.73 2.7304 4 0 2 12 32.85 3.68 2.7261 5 0 0 6 34.23 1.26 2.6197 2 1 3 24 34.33 2.57 2.6121 5 0 1 12 34.78 14.17 2.5795 3 2 2 24 36.04 24.39 2.4918 4 1 2 24 36.71 2.55 2.4481 5 1 0 12 38.06 4.75 2.3645 5 1 1 24 38.47 2.21 2.3403 5 0 2 12 39.49 7.99 2.2817 0 0 4 2 39.63 16.49 2.2742 3 3 2 12 39.67 15.49 2.2717 6 0 0 6 39.72 1.89 2.2694 4 0 3 12 40.07 1.08 2.2504 1 0 4 12 40.20 8.99 2.2432 4 2 2 24 40.25 2.56 2.2408 4 3 0 12 41.19 3.39 2.1915 1 1 4 12 41.37 3.50 2.1826 5 2 0 12 41.41 2.78 2.1806 3 2 3 24 41.50 1.70 2.1762 4 3 1 24 41.88 1.07 2.1573 5 1 2 24 43.37 3.00 2.0863 2 1 4 24 44.63 2.71 2.0303 5 0 3 12 46.10 1.10 1.9690 5 2 2 24 46.14 1.96 1.9674 4 4 0 6 46.18 3.57 1.9659 4 2 3 24 46.65 1.50 1.9472 7 0 0 6 47.76 1.07 1.9043 5 3 1 24 47.98 1.80 1.8960 4 0 4 12 50.56 3.32 1.8054 7 1 0 12 50.99 3.63 1.7910 5 3 2 24 51.53 1.22 1.7734 5 2 3 24 52.28 6.86 1.7497 5 0 4 12 52.43 1.32 1.7452 5 4 0 12 55.01 1.41 1.6691 5 1 4 24 55.16 1.90 1.6652 7 2 0 12 56.08 1.89 1.6400 5 3 3 24 57.22 15.98 1.6099 6 0 4 12 57.25 1.12 1.6091 4 0 5 12 57.33 1.49 1.6072 6 3 2 24 57.66 4.78 1.5988 4 3 4 24 58.52 6.14 1.5772 5 2 4 24 58.66 1.23 1.5739 5 5 0 6 59.05 1.11 1.5643 7 2 2 24 59.09 1.92 1.5635 6 4 0 12 60.03 2.68 1.5411 6 4 1 24 60.36 1.46 1.5335 7 3 0 12 62.41 2.38 1.4879 5 5 2 12 62.83 9.68 1.4791 6 4 2 24 63.80 1.13 1.4589 2 1 6 24 64.61 1.86 1.4425 3 0 6 12 65.30 1.30 1.4289 6 5 0 12 65.98 2.09 1.4158 7 1 4 24 67.33 1.86 1.3906 6 4 3 24 67.42 4.22 1.3890 4 0 6 12 68.61 1.37 1.3679 3 2 6 24 68.86 1.02 1.3636 9 1 2 24 69.39 2.19 1.3543 4 1 6 24 69.76 2.15 1.3481 10 0 1 12 71.20 2.32 1.3244 8 3 2 24 71.73 1.35 1.3159 3 3 6 12 72.11 1.66 1.3098 4 2 6 24 72.35 4.86 1.3060 10 0 2 12 76.60 1.01 1.2439 10 0 3 12 78.79 1.12 1.2147 9 3 2 24 79.97 1.14 1.1998 7 5 3 24 85.02 1.21 1.1409 0 0 8 2 90.00 1.51 1.0903 6 4 6 24 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.