RbAlGe3O8 Tripathi A, Parise J B Microporous and Mesoporous Materials 52 (2002) 65-78 Hydrothermal synthesis and structural characterization of the aluminogermanate analogues of JBW, montesommaite, analcime and paracelsian Sample: Rb-AlGe-Para _database_code_amcsd 0014406 CELL PARAMETERS: 8.8480 9.5500 10.0100 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 845.829 Density (g/cm3): 3.599 MAX. ABS. INTENSITY / VOLUME**2: 15.96220834 RIR: 1.444 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 12.81 4.39 6.9098 0 1 1 4 13.36 3.60 6.6294 1 0 1 4 16.28 8.42 5.4459 1 1 1 8 18.58 61.46 4.7750 0 2 0 2 20.07 1.55 4.4240 2 0 0 2 20.39 18.40 4.3563 1 0 2 4 21.97 10.94 4.0464 2 0 1 4 22.14 100.00 4.0142 2 1 0 4 22.43 60.14 3.9634 1 1 2 8 22.95 81.34 3.8746 1 2 1 8 23.88 20.58 3.7258 2 1 1 8 25.79 15.86 3.4549 0 2 2 4 26.90 40.27 3.3147 2 0 2 4 27.48 13.21 3.2452 2 2 0 4 27.72 28.39 3.2182 1 2 2 8 28.33 55.87 3.1499 0 1 3 4 28.59 36.40 3.1220 1 0 3 4 28.92 31.40 3.0871 2 2 1 8 29.44 13.10 3.0336 0 3 1 4 30.11 4.91 2.9675 1 1 3 8 31.17 68.13 2.8696 1 3 1 8 32.89 27.77 2.7229 2 2 2 8 33.02 25.63 2.7126 3 1 1 8 33.64 19.77 2.6639 2 0 3 4 34.32 7.43 2.6131 1 2 3 8 34.72 16.61 2.5839 2 3 0 4 34.91 7.08 2.5702 1 3 2 8 35.32 54.47 2.5410 3 0 2 4 35.88 15.52 2.5025 0 0 4 2 35.89 20.39 2.5019 2 3 1 8 36.59 1.17 2.4555 3 1 2 8 36.93 10.65 2.4340 3 2 1 8 37.34 3.11 2.4080 1 0 4 4 37.68 8.26 2.3875 0 4 0 2 38.71 3.42 2.3264 2 2 3 8 39.11 2.40 2.3033 0 3 3 4 39.24 21.03 2.2960 2 3 2 8 40.14 4.50 2.2463 1 4 1 8 40.47 3.30 2.2290 1 3 3 8 40.84 3.29 2.2098 3 0 3 4 41.46 5.52 2.1782 2 0 4 4 41.82 4.42 2.1599 4 0 1 4 41.92 5.61 2.1549 4 1 0 4 41.92 2.25 2.1549 0 4 2 4 41.96 3.44 2.1529 3 1 3 8 42.02 9.73 2.1501 1 2 4 8 42.57 2.67 2.1236 2 1 4 8 42.76 1.65 2.1147 3 3 1 8 43.21 2.76 2.0937 1 4 2 8 44.34 9.81 2.0430 2 3 3 8 44.80 1.01 2.0232 4 0 2 4 45.18 1.85 2.0071 4 2 0 4 45.68 10.17 1.9859 3 3 2 8 45.79 6.00 1.9817 2 2 4 8 46.13 8.64 1.9679 4 2 1 8 46.34 4.09 1.9594 0 1 5 4 46.51 13.66 1.9526 1 0 5 4 47.33 19.20 1.9205 1 3 4 8 48.89 7.01 1.8629 4 2 2 8 49.44 1.11 1.8437 4 0 3 4 49.67 4.80 1.8353 1 5 1 8 50.01 3.50 1.8239 2 0 5 4 50.26 7.74 1.8153 3 3 3 8 51.10 11.35 1.7873 4 3 1 8 51.39 1.03 1.7779 2 4 3 8 51.58 5.76 1.7719 3 2 4 8 52.16 21.38 1.7536 2 5 0 4 52.30 5.03 1.7493 1 5 2 8 52.51 6.47 1.7426 5 0 1 4 52.60 1.01 1.7399 3 4 2 8 53.01 1.12 1.7274 0 4 4 4 53.02 6.06 1.7272 2 5 1 8 53.26 2.27 1.7199 4 2 3 8 53.45 1.41 1.7143 5 1 1 8 53.68 16.41 1.7075 4 3 2 8 54.09 3.89 1.6954 1 4 4 8 55.04 1.36 1.6683 0 0 6 2 55.18 3.54 1.6645 1 3 5 8 55.43 13.10 1.6576 0 5 3 4 55.47 2.16 1.6564 3 0 5 4 55.95 5.34 1.6435 5 1 2 8 56.10 3.40 1.6394 1 0 6 4 56.20 1.11 1.6367 3 3 4 8 56.37 15.45 1.6321 3 1 5 8 56.48 1.81 1.6293 1 5 3 8 57.54 2.01 1.6017 4 4 1 8 57.79 8.06 1.5954 4 3 3 8 57.94 11.21 1.5917 0 6 0 2 58.29 5.63 1.5830 3 5 1 8 59.03 3.98 1.5649 3 2 5 8 59.09 1.28 1.5633 5 0 3 4 59.19 6.78 1.5610 2 0 6 4 59.56 1.16 1.5522 2 5 3 8 59.63 1.22 1.5506 1 2 6 8 59.96 1.64 1.5428 5 1 3 8 60.58 4.96 1.5285 5 3 1 8 60.65 1.73 1.5268 3 5 2 8 62.08 1.30 1.4950 1 6 2 8 62.29 1.82 1.4906 3 4 4 8 62.51 1.06 1.4857 5 2 3 8 62.61 6.67 1.4837 2 2 6 8 62.89 2.54 1.4777 5 3 2 8 63.04 4.64 1.4747 6 0 0 2 63.26 3.88 1.4701 4 3 4 8 63.29 9.26 1.4694 3 3 5 8 63.78 2.29 1.4592 4 4 3 8 63.87 2.44 1.4575 1 3 6 8 64.45 1.64 1.4456 4 5 0 4 64.48 3.29 1.4450 3 5 3 8 64.49 3.44 1.4449 5 0 4 4 64.94 1.41 1.4361 2 5 4 8 65.00 1.66 1.4348 2 6 2 8 65.32 1.56 1.4286 5 1 4 8 65.87 3.60 1.4180 1 6 3 8 66.06 2.42 1.4142 0 1 7 4 66.42 1.78 1.4075 5 4 1 8 66.65 3.98 1.4033 5 3 3 8 66.74 3.32 1.4016 2 3 6 8 67.43 2.65 1.3889 4 5 2 8 67.76 2.66 1.3829 5 2 4 8 67.81 2.00 1.3820 0 5 5 4 68.70 5.71 1.3664 2 6 3 8 69.02 2.34 1.3607 2 0 7 4 69.28 2.39 1.3563 6 2 2 8 69.43 4.84 1.3538 1 2 7 8 69.71 12.20 1.3489 3 6 2 8 70.06 1.42 1.3430 0 6 4 4 70.36 4.38 1.3381 6 3 0 4 70.51 3.04 1.3356 6 1 3 8 70.98 2.31 1.3278 1 6 4 8 71.08 2.05 1.3263 6 3 1 8 71.10 7.50 1.3259 5 0 5 4 71.74 1.26 1.3157 5 3 4 8 72.46 2.12 1.3044 0 3 7 4 72.62 1.13 1.3019 1 7 2 8 72.87 2.79 1.2980 6 2 3 8 73.37 5.49 1.2905 1 3 7 8 73.58 2.12 1.2873 5 5 1 8 73.87 4.76 1.2830 4 2 6 8 73.98 2.22 1.2813 4 6 1 8 74.23 1.87 1.2775 5 2 5 8 75.69 4.58 1.2565 5 5 2 8 75.87 1.83 1.2540 7 0 1 4 76.06 14.47 1.2514 3 5 5 8 76.07 2.18 1.2513 0 0 8 2 76.59 1.29 1.2440 1 5 6 8 77.35 3.43 1.2337 1 6 5 8 77.72 7.44 1.2287 4 3 6 8 78.93 4.70 1.2129 7 2 1 8 79.17 2.58 1.2098 5 5 3 8 80.01 1.26 1.1992 2 6 5 8 80.38 1.40 1.1946 2 1 8 8 80.45 1.12 1.1938 0 8 0 2 81.42 1.91 1.1820 7 0 3 4 81.99 1.04 1.1752 5 6 1 8 82.02 1.56 1.1749 1 8 1 8 82.71 1.10 1.1668 7 3 1 8 84.02 2.32 1.1519 3 0 8 4 84.07 2.21 1.1513 1 8 2 8 84.43 2.10 1.1474 7 2 3 8 84.65 1.14 1.1450 2 8 1 8 84.67 2.83 1.1447 0 5 7 4 86.69 1.41 1.1231 2 8 2 8 87.48 1.15 1.1150 1 8 3 8 87.53 1.38 1.1145 2 6 6 8 88.81 2.87 1.1018 6 5 3 8 89.19 1.19 1.0980 7 2 4 8 89.76 1.06 1.0925 4 5 6 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.