Metanatroautunite Mills S J, Kampf A R, Birch W D American Mineralogist 97 (2012) 735-738 The crystal structure of metanatroautunite, Na[(UO2)(PO4)](H2O)3, from the Lake Boga Granite, Victoria, Australia Note: z-coordinate of U changed from .40959 to match reported bond lengths Locality: Lake Boga Granite, Victoria, Australia _database_code_amcsd 0018862 CELL PARAMETERS: 6.9935 6.9935 17.5101 90.000 90.000 90.000 SPACE GROUP: P4/ncc X-RAY WAVELENGTH: 1.541838 Cell Volume: 856.402 Density (g/cm3): 3.478 MAX. ABS. INTENSITY / VOLUME**2: 84.15620970 RIR: 7.878 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.10 100.00 8.7550 0 0 2 2 16.22 45.09 5.4642 1 0 2 8 17.94 41.38 4.9452 1 1 0 4 20.29 5.98 4.3775 0 0 4 2 20.63 30.77 4.3058 1 1 2 8 23.98 64.51 3.7106 1 0 4 8 25.47 41.31 3.4968 2 0 0 4 27.47 48.71 3.2473 2 0 2 8 29.00 1.84 3.0789 2 1 1 16 30.35 24.44 2.9453 2 1 2 16 32.78 4.67 2.7321 2 0 4 8 33.27 17.01 2.6933 1 0 6 8 35.27 13.74 2.5448 2 1 4 16 35.72 2.69 2.5133 1 1 6 8 36.33 9.07 2.4726 2 2 0 4 37.81 16.12 2.3795 2 2 2 8 40.02 7.56 2.2527 3 0 2 8 40.80 16.54 2.2115 3 1 0 8 41.25 4.55 2.1888 0 0 8 2 41.97 1.74 2.1529 2 2 4 8 42.14 14.14 2.1442 3 1 2 16 42.36 16.54 2.1337 2 1 6 16 43.32 5.20 2.0888 1 0 8 8 44.01 13.28 2.0576 3 0 4 8 45.31 7.19 2.0015 1 1 8 8 48.04 6.56 1.8937 3 2 2 16 49.10 3.74 1.8553 2 0 8 8 50.08 7.73 1.8214 3 0 6 8 50.92 4.40 1.7933 2 1 8 16 51.54 10.65 1.7734 3 2 4 16 51.87 2.17 1.7626 3 1 6 16 52.24 1.79 1.7510 0 0 10 2 52.33 5.46 1.7484 4 0 0 4 53.44 5.31 1.7145 4 0 2 8 55.16 2.70 1.6652 4 1 2 16 55.69 6.52 1.6506 1 1 10 8 55.77 3.34 1.6484 3 3 0 4 56.12 1.33 1.6389 2 2 8 8 56.84 3.32 1.6199 3 3 2 8 57.01 7.77 1.6154 3 2 6 16 57.78 2.31 1.5957 3 0 8 8 58.34 6.27 1.5816 4 1 4 16 59.00 4.34 1.5657 2 0 10 8 59.07 5.98 1.5638 4 2 0 8 59.41 8.25 1.5557 3 1 8 16 60.10 5.70 1.5394 4 2 2 16 63.13 1.03 1.4726 4 2 4 16 63.43 3.95 1.4665 4 1 6 16 64.15 2.56 1.4517 3 2 8 16 65.30 2.38 1.4290 2 2 10 8 65.33 1.19 1.4284 1 0 12 8 66.85 2.16 1.3995 1 1 12 8 67.86 1.92 1.3812 4 3 2 16 68.33 7.72 1.3728 3 1 10 16 68.40 1.83 1.3715 5 1 0 8 68.71 1.37 1.3661 4 0 8 8 69.35 1.96 1.3550 5 1 2 16 69.85 1.21 1.3466 2 0 12 8 70.20 1.60 1.3407 4 1 8 16 70.71 1.46 1.3323 5 0 4 8 70.71 3.62 1.3323 4 3 4 16 71.67 2.38 1.3167 3 3 8 8 73.76 1.07 1.2846 5 2 2 16 74.58 1.65 1.2724 4 2 8 16 75.35 2.98 1.2613 4 3 6 16 75.35 1.45 1.2613 5 0 6 8 76.52 2.25 1.2450 5 2 4 16 77.09 1.52 1.2372 4 0 10 8 77.16 1.06 1.2363 4 4 0 4 77.53 1.26 1.2312 1 0 14 8 78.07 1.37 1.2241 4 4 2 8 78.54 3.01 1.2180 3 1 12 16 79.93 2.53 1.2002 3 3 10 8 80.00 1.28 1.1994 5 3 0 8 80.90 1.39 1.1883 5 3 2 16 81.05 1.84 1.1865 5 2 6 16 81.70 1.10 1.1786 4 3 8 16 82.75 1.99 1.1664 4 2 10 16 82.81 1.01 1.1656 6 0 0 4 83.11 1.96 1.1622 5 1 8 16 83.19 1.71 1.1613 2 1 14 16 83.71 1.42 1.1554 6 0 2 8 87.78 1.87 1.1120 6 1 4 16 88.40 1.67 1.1058 6 2 0 8 88.77 1.06 1.1021 3 0 14 8 89.29 2.01 1.0971 6 2 2 16 89.75 1.11 1.0926 3 3 12 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.