Cu3Na2(Si4O12) Kawamura K, Kawahara A Acta Crystallographica B32 (1976) 2419-2422 Crystal structure of synthetic copper sodium silicate: Cu3Na2(Si4O12) Locality: synthetic _database_code_amcsd 0020110 CELL PARAMETERS: 7.5190 10.2030 13.5670 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 1040.811 Density (g/cm3): 3.452 MAX. ABS. INTENSITY / VOLUME**2: 12.41756688 RIR: 1.171 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.85 57.33 8.1544 0 1 1 4 13.05 7.06 6.7835 0 0 2 2 13.46 16.00 6.5765 1 0 1 4 16.03 22.19 5.5277 1 1 1 8 17.38 17.54 5.1015 0 2 0 2 17.61 2.55 5.0367 1 0 2 4 19.66 3.84 4.5164 1 1 2 8 21.49 3.50 4.1344 0 1 3 4 21.80 3.14 4.0772 0 2 2 4 22.05 11.94 4.0309 1 2 1 8 22.95 30.87 3.8754 1 0 3 4 23.67 100.00 3.7595 2 0 0 2 24.57 1.62 3.6230 2 0 1 4 24.57 13.54 3.6228 1 1 3 8 24.84 2.62 3.5842 1 2 2 8 25.25 2.76 3.5276 2 1 0 4 26.10 82.96 3.4141 2 1 1 8 27.03 44.55 3.2989 0 3 1 4 27.12 20.46 3.2883 2 0 2 4 28.88 5.58 3.0917 1 0 4 4 28.93 63.63 3.0859 1 2 3 8 29.51 15.24 3.0265 2 2 0 4 29.57 1.52 3.0210 1 3 1 8 30.20 1.23 2.9589 1 1 4 8 30.93 3.92 2.8910 2 0 3 4 31.68 9.56 2.8245 0 2 4 4 31.75 4.05 2.8186 1 3 2 8 32.39 45.99 2.7639 2 2 2 8 32.95 6.33 2.7181 0 3 3 4 33.90 55.38 2.6441 1 2 4 8 34.19 6.81 2.6223 0 1 5 4 35.16 10.15 2.5523 1 0 5 4 35.18 28.68 2.5508 0 4 0 2 35.60 3.06 2.5221 2 3 0 4 35.70 4.99 2.5152 2 2 3 8 36.23 24.80 2.4796 2 3 1 8 36.28 4.35 2.4760 1 1 5 8 36.46 13.24 2.4646 3 0 1 4 36.76 2.18 2.4450 2 1 4 8 37.54 7.59 2.3957 3 1 1 8 37.83 4.30 2.3781 1 4 1 8 39.39 2.89 2.2877 1 3 4 8 39.48 11.48 2.2826 1 2 5 8 39.87 1.88 2.2612 0 0 6 2 39.92 38.56 2.2582 2 2 4 8 40.65 5.40 2.2192 3 2 1 8 42.01 1.65 2.1508 2 1 5 8 42.16 5.45 2.1433 3 1 3 8 42.33 1.44 2.1352 3 2 2 8 42.42 2.31 2.1306 1 4 3 8 42.63 8.55 2.1211 0 3 5 4 42.84 3.76 2.1108 2 4 0 4 43.79 6.99 2.0672 0 2 6 4 44.38 21.38 2.0414 1 3 5 8 44.44 10.08 2.0386 0 4 4 4 44.92 2.30 2.0179 0 5 1 4 44.98 10.66 2.0155 2 4 2 8 46.13 18.49 1.9676 1 4 4 8 46.60 1.05 1.9489 1 5 1 8 46.89 2.74 1.9377 2 0 6 4 46.99 1.51 1.9339 3 3 2 8 48.42 22.10 1.8798 4 0 0 2 48.56 15.38 1.8747 3 2 4 8 49.33 10.95 1.8473 2 3 5 8 49.47 3.37 1.8426 3 3 3 8 49.51 4.01 1.8411 3 0 5 4 49.78 6.00 1.8317 4 1 1 8 50.36 4.61 1.8118 3 1 5 8 50.38 1.09 1.8114 2 2 6 8 50.55 1.51 1.8056 1 5 3 8 50.59 4.40 1.8042 1 4 5 8 51.56 15.43 1.7724 3 4 1 8 52.97 3.74 1.7287 3 4 2 8 53.17 3.50 1.7227 2 0 7 4 53.69 1.18 1.7071 4 2 2 8 53.92 1.93 1.7005 0 6 0 2 54.08 1.04 1.6959 0 0 8 2 54.21 1.04 1.6920 0 4 6 4 55.55 5.53 1.6543 1 0 8 4 55.84 1.94 1.6464 1 6 1 8 55.92 2.90 1.6441 4 0 4 4 55.96 2.70 1.6433 4 2 3 8 56.33 3.08 1.6332 4 3 1 8 56.42 10.03 1.6309 0 5 5 4 56.71 1.58 1.6232 4 1 4 8 56.87 3.88 1.6191 3 3 5 8 57.25 9.25 1.6093 0 2 8 4 57.85 9.88 1.5938 1 5 5 8 58.19 1.34 1.5854 2 5 4 8 58.35 7.56 1.5815 3 4 4 8 59.35 3.33 1.5572 1 6 3 8 59.68 3.62 1.5494 2 6 0 4 59.83 1.97 1.5459 2 0 8 4 59.95 7.76 1.5430 2 4 6 8 60.03 2.15 1.5411 3 5 2 8 60.22 1.49 1.5368 2 3 7 8 60.37 3.92 1.5332 3 0 7 4 60.61 3.02 1.5278 4 1 5 8 61.25 9.08 1.5132 4 4 0 4 61.32 1.71 1.5117 1 4 7 8 61.38 5.52 1.5105 2 6 2 8 62.03 6.88 1.4962 2 5 5 8 62.15 2.53 1.4936 3 5 3 8 62.18 2.73 1.4929 3 4 5 8 62.32 8.59 1.4900 1 6 4 8 62.84 1.90 1.4789 5 1 1 8 63.34 4.50 1.4683 3 2 7 8 63.61 10.09 1.4628 1 1 9 8 64.27 5.25 1.4492 0 7 1 4 64.46 1.13 1.4455 4 0 6 4 65.40 5.01 1.4270 5 0 3 4 65.78 1.98 1.4197 1 2 9 8 66.02 1.15 1.4152 1 6 5 8 66.12 1.02 1.4132 5 1 3 8 66.33 9.92 1.4093 2 6 4 8 66.46 4.40 1.4068 4 3 5 8 66.58 4.45 1.4046 3 0 8 4 66.82 1.18 1.4001 1 7 2 8 66.84 2.38 1.3997 3 6 1 8 67.33 6.53 1.3907 4 2 6 8 67.48 6.88 1.3880 1 4 8 8 67.58 1.01 1.3862 2 1 9 8 67.82 3.54 1.3819 4 4 4 8 68.25 6.74 1.3742 5 2 3 8 68.58 1.33 1.3683 5 3 1 8 68.66 4.41 1.3670 3 5 5 8 68.82 1.06 1.3643 1 7 3 8 69.12 3.05 1.3591 0 6 6 4 69.32 5.83 1.3556 1 3 9 8 69.52 11.09 1.3522 2 7 1 8 69.69 2.00 1.3494 4 0 7 4 70.54 8.19 1.3351 1 0 10 4 71.01 4.71 1.3274 5 2 4 8 71.34 1.65 1.3220 2 4 8 8 71.76 1.23 1.3153 5 0 5 4 71.84 2.24 1.3141 3 4 7 8 72.45 1.19 1.3045 4 2 7 8 72.76 2.58 1.2998 3 6 4 8 73.96 3.39 1.2816 3 1 9 8 74.05 1.80 1.2803 4 5 4 8 74.33 1.97 1.2761 2 0 10 4 74.38 4.40 1.2754 0 8 0 2 74.50 3.58 1.2737 5 2 5 8 75.43 1.03 1.2602 1 6 7 8 76.01 1.11 1.2520 1 8 1 8 76.60 1.02 1.2438 6 1 0 4 76.97 2.04 1.2388 3 7 2 8 76.98 1.98 1.2386 6 1 1 8 77.03 1.54 1.2380 2 2 10 8 77.45 1.29 1.2323 6 0 2 4 77.48 3.50 1.2319 4 5 5 8 77.60 2.69 1.2304 3 4 8 8 77.87 1.25 1.2268 5 3 5 8 78.19 3.28 1.2225 4 2 8 8 78.60 1.09 1.2171 1 0 11 4 78.61 2.60 1.2170 6 2 0 4 79.14 3.20 1.2102 5 4 4 8 79.33 1.89 1.2078 2 8 0 4 79.34 3.64 1.2076 3 3 9 8 80.12 1.06 1.1979 6 2 2 8 80.45 1.19 1.1938 0 8 4 4 80.50 4.24 1.1931 3 0 10 4 80.61 1.12 1.1918 5 5 2 8 81.34 1.78 1.1829 1 4 10 8 82.48 1.71 1.1694 5 5 3 8 84.40 2.67 1.1477 4 7 1 8 84.98 1.47 1.1413 2 4 10 8 85.22 1.04 1.1387 3 6 7 8 85.78 1.52 1.1327 3 8 1 8 87.43 1.39 1.1155 1 6 9 8 88.02 1.29 1.1096 6 4 2 8 88.85 2.06 1.1014 4 6 6 8 89.70 1.06 1.0931 5 6 3 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.