Metatorbernite Stubbs J E, Post J E, Elbert D C, Heaney P J, Veblen D R American Mineralogist 95 (2010) 1132-1140 Uranyl phosphate sheet reconstruction during dehydration of metatorbernite [Cu(UO2)2(PO4)2*8H2O] Note: This is the 8.3 Angstrom phase while heating at 129 C Locality: Bois Noirs, France _database_code_amcsd 0016812 CELL PARAMETERS: 6.9551 6.9551 16.6604 90.000 90.000 90.000 SPACE GROUP: P4/n X-RAY WAVELENGTH: 1.541838 Cell Volume: 805.920 Density (g/cm3): 3.748 MAX. ABS. INTENSITY / VOLUME**2: 70.31641284 RIR: 6.109 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.62 100.00 8.3302 0 0 2 2 16.60 49.75 5.3389 1 0 2 8 18.04 78.97 4.9180 1 1 0 4 20.98 23.60 4.2350 1 1 2 8 21.33 8.47 4.1651 0 0 4 2 24.92 99.42 3.5733 1 0 4 8 25.62 71.64 3.4776 2 0 0 4 27.80 48.96 3.2091 2 0 2 8 30.33 1.05 2.9474 2 0 3 8 30.68 6.65 2.9139 1 2 2 8 30.68 18.17 2.9139 2 1 2 8 33.57 5.70 2.6694 2 0 4 8 34.79 13.29 2.5788 1 0 6 8 36.04 16.59 2.4922 1 2 4 8 36.04 13.47 2.4922 2 1 4 8 36.54 18.11 2.4590 2 2 0 4 37.18 3.14 2.4180 1 1 6 8 38.16 16.38 2.3584 2 2 2 8 39.23 1.19 2.2962 3 0 1 8 40.38 9.71 2.2335 3 0 2 8 41.04 11.81 2.1994 3 1 0 4 41.04 16.82 2.1994 1 3 0 4 42.51 11.90 2.1265 3 1 2 8 42.51 3.76 2.1265 1 3 2 8 42.70 2.12 2.1175 2 2 4 8 43.45 7.41 2.0826 0 0 8 2 43.70 11.78 2.0714 2 1 6 8 43.70 4.60 2.0714 1 2 6 8 44.74 20.52 2.0257 3 0 4 8 45.46 7.28 1.9950 1 0 8 8 47.41 13.18 1.9177 1 1 8 8 48.44 3.81 1.8793 3 2 2 8 48.44 3.78 1.8793 2 3 2 8 51.12 7.52 1.7867 2 0 8 8 51.34 7.81 1.7796 3 0 6 8 52.26 7.59 1.7504 3 2 4 8 52.26 12.04 1.7504 2 3 4 8 52.64 8.29 1.7388 4 0 0 4 52.91 2.40 1.7305 2 1 8 8 52.91 3.03 1.7305 1 2 8 8 53.12 2.65 1.7241 3 1 6 8 53.12 1.20 1.7241 1 3 6 8 53.86 6.43 1.7021 4 0 2 8 55.13 1.30 1.6660 0 0 10 2 55.59 1.13 1.6533 1 4 2 8 55.59 2.49 1.6533 4 1 2 8 56.10 6.10 1.6393 3 3 0 4 57.28 3.29 1.6085 3 3 2 8 57.43 1.11 1.6046 4 0 4 8 58.04 3.18 1.5892 2 2 8 8 58.24 3.74 1.5842 3 2 6 8 58.24 3.73 1.5842 2 3 6 8 58.49 6.38 1.5780 1 1 10 8 59.09 5.95 1.5635 1 4 4 8 59.09 4.76 1.5635 4 1 4 8 59.43 6.34 1.5552 2 4 0 4 59.43 4.70 1.5552 4 2 0 4 59.68 3.09 1.5493 3 0 8 8 60.57 3.74 1.5288 2 4 2 8 60.57 2.48 1.5288 4 2 2 8 61.30 8.28 1.5122 1 3 8 8 61.30 6.44 1.5122 3 1 8 8 61.74 4.34 1.5025 2 0 10 8 64.65 1.38 1.4417 1 4 6 8 64.65 2.77 1.4417 4 1 6 8 66.02 1.68 1.4152 3 2 8 8 66.02 1.97 1.4152 2 3 8 8 67.96 2.63 1.3793 2 2 10 8 68.37 1.25 1.3720 5 0 2 8 68.37 1.38 1.3720 3 4 2 8 68.83 2.12 1.3640 5 1 0 4 68.83 1.87 1.3640 1 5 0 4 68.97 2.53 1.3615 1 0 12 8 69.88 1.41 1.3461 5 1 2 8 70.48 2.69 1.3361 1 1 12 8 70.56 2.47 1.3347 4 0 8 8 70.97 5.60 1.3280 3 1 10 8 70.97 3.20 1.3280 1 3 10 8 71.51 3.36 1.3194 4 3 4 8 71.51 2.61 1.3194 5 0 4 8 71.51 3.40 1.3194 3 4 4 8 72.05 1.30 1.3108 1 4 8 8 72.05 1.14 1.3108 4 1 8 8 73.44 1.45 1.2894 2 0 12 8 73.52 4.56 1.2881 3 3 8 8 74.90 1.09 1.2678 1 2 12 8 74.90 1.03 1.2678 2 1 12 8 76.44 2.33 1.2461 2 4 8 8 76.44 1.54 1.2461 4 2 8 8 76.61 1.28 1.2437 4 3 6 8 76.61 1.70 1.2437 5 0 6 8 76.61 1.88 1.2437 3 4 6 8 77.36 2.54 1.2336 2 5 4 8 77.36 2.36 1.2336 5 2 4 8 77.66 2.08 1.2295 4 4 0 4 78.66 1.74 1.2163 4 4 2 8 79.71 1.79 1.2030 4 0 10 8 80.53 1.17 1.1928 3 5 0 4 80.53 1.46 1.1928 5 3 0 4 80.67 1.52 1.1911 3 0 12 8 82.09 2.25 1.1740 1 3 12 8 82.09 1.84 1.1740 3 1 12 8 82.18 1.16 1.1730 1 0 14 8 82.56 2.94 1.1685 3 3 10 8 83.37 1.92 1.1592 6 0 0 4 84.36 1.81 1.1481 6 0 2 8 85.01 2.31 1.1410 5 1 8 8 85.01 2.06 1.1410 1 5 8 8 85.39 1.28 1.1369 2 4 10 8 86.34 1.28 1.1268 2 3 12 8 87.83 1.33 1.1115 2 1 14 8 88.72 1.80 1.1026 1 6 4 8 88.72 2.25 1.1026 6 1 4 8 89.02 1.89 1.0997 2 6 0 4 89.02 1.77 1.0997 6 2 0 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.