Kanemite Garvie L A J, Devouard B, Groy T L, Camara F, Buseck P R American Mineralogist 84 (1999) 1170-1175 Crystal structure of kanemite, NaHSi2O5.3H2O, from the Aris phonolite, Namibia _database_code_amcsd 0002274 CELL PARAMETERS: 4.9460 20.5020 7.2750 90.000 90.000 90.000 SPACE GROUP: Pbcn X-RAY WAVELENGTH: 1.541838 Cell Volume: 737.706 Density (g/cm3): 1.938 MAX. ABS. INTENSITY / VOLUME**2: 8.314363322 RIR: 1.397 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.63 78.06 10.2510 0 2 0 2 14.93 1.07 5.9328 0 2 1 4 17.30 19.04 5.1255 0 4 0 2 21.20 1.10 4.1900 0 4 1 4 22.16 6.89 4.0112 1 1 1 8 22.19 100.00 4.0067 1 3 0 4 23.42 3.42 3.7990 1 2 1 8 24.47 27.16 3.6375 0 0 2 2 25.38 1.29 3.5097 1 3 1 8 25.99 56.84 3.4281 0 2 2 4 27.91 10.28 3.1970 1 4 1 8 28.27 21.29 3.1567 1 5 0 4 28.87 27.53 3.0928 0 6 1 4 30.51 1.01 2.9303 1 0 2 4 30.88 5.21 2.8958 1 5 1 8 31.76 1.26 2.8175 1 2 2 8 33.27 3.12 2.6932 1 3 2 8 34.19 6.88 2.6223 1 6 1 8 36.06 18.85 2.4905 0 6 2 4 36.33 38.58 2.4730 2 0 0 2 37.73 18.87 2.3841 1 5 2 8 37.78 3.20 2.3813 1 7 1 8 38.13 5.50 2.3599 0 2 3 4 41.18 3.99 2.1920 0 4 3 4 41.59 3.71 2.1717 1 8 1 8 43.70 6.17 2.0715 1 7 2 8 45.21 5.34 2.0056 2 2 2 8 45.25 1.56 2.0040 1 4 3 8 45.26 1.51 2.0034 2 6 0 4 45.58 6.83 1.9902 1 9 1 8 45.89 1.13 1.9776 0 6 3 4 47.05 8.80 1.9315 2 6 1 8 47.27 4.68 1.9231 1 5 3 8 47.89 3.89 1.8995 2 4 2 8 49.65 1.50 1.8363 1 6 3 8 49.75 2.08 1.8328 1 10 1 8 49.86 1.85 1.8288 2 7 1 8 50.16 8.20 1.8188 0 0 4 2 50.76 7.06 1.7985 1 9 2 8 51.34 1.10 1.7796 2 8 0 4 51.91 5.93 1.7614 0 8 3 4 52.12 3.27 1.7548 2 6 2 8 52.47 2.56 1.7441 1 11 0 4 53.46 4.37 1.7140 0 4 4 4 53.69 3.17 1.7073 2 2 3 8 53.90 1.16 1.7011 1 1 4 8 55.23 1.65 1.6632 0 12 1 4 55.37 1.05 1.6593 1 8 3 8 55.48 2.08 1.6561 1 3 4 8 56.06 1.46 1.6404 2 4 3 8 56.35 2.56 1.6327 2 9 1 8 57.50 5.45 1.6027 3 3 0 4 57.67 1.98 1.5985 2 8 2 8 58.58 1.48 1.5759 1 5 4 8 58.65 3.56 1.5740 1 9 3 8 60.33 3.09 1.5342 3 4 1 8 60.53 1.54 1.5297 3 5 0 4 61.74 3.81 1.5025 1 13 0 4 63.03 1.45 1.4748 1 7 4 8 63.49 3.17 1.4652 2 0 4 4 63.53 1.98 1.4644 0 14 0 2 63.83 1.41 1.4582 2 11 1 8 64.00 2.35 1.4549 3 6 1 8 65.01 3.64 1.4347 2 8 3 8 65.98 2.02 1.4159 1 11 3 8 66.29 3.26 1.4100 3 5 2 8 66.36 1.31 1.4087 2 4 4 8 66.84 1.64 1.3997 0 4 5 4 67.22 2.28 1.3926 1 1 5 8 67.92 1.73 1.3801 2 12 1 8 68.95 1.36 1.3620 3 8 1 8 69.15 2.82 1.3585 0 14 2 4 70.32 3.71 1.3387 0 6 5 4 71.62 1.09 1.3176 3 4 3 8 73.15 1.31 1.2938 3 5 3 8 75.44 1.85 1.2601 2 14 0 4 75.89 3.30 1.2537 3 9 2 8 76.98 1.99 1.2387 1 15 2 8 77.14 1.11 1.2365 4 0 0 2 77.26 1.55 1.2349 3 11 0 4 78.53 1.04 1.2181 2 4 5 8 78.62 2.45 1.2169 4 1 1 8 80.59 1.23 1.1921 2 10 4 8 80.70 2.83 1.1907 2 14 2 8 80.74 3.92 1.1902 1 9 5 8 81.81 2.87 1.1773 2 6 5 8 82.29 1.94 1.1717 1 17 0 4 83.44 2.93 1.1584 1 13 4 8 83.51 1.17 1.1576 1 15 3 8 84.98 1.22 1.1413 4 4 2 8 86.28 1.00 1.1274 3 7 4 8 87.46 1.65 1.1152 1 17 2 8 88.99 1.08 1.1000 4 1 3 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.