K6.16Al6.16Ge9.84O32*4H2O 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: K-AlGe-MON _database_code_amcsd 0014407 CELL PARAMETERS: 7.3730 7.3730 17.5130 90.000 90.000 90.000 SPACE GROUP: I-42d X-RAY WAVELENGTH: 1.541838 Cell Volume: 952.026 Density (g/cm3): 2.990 MAX. ABS. INTENSITY / VOLUME**2: 18.86246609 RIR: 2.054 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.03 100.00 6.7953 1 0 1 8 19.82 9.39 4.4796 1 1 2 4 20.28 41.05 4.3783 0 0 4 2 26.23 93.47 3.3977 2 0 2 8 27.53 93.06 3.2404 2 1 1 8 28.21 44.58 3.1637 1 0 5 8 31.15 25.30 2.8710 2 1 3 8 31.73 3.95 2.8200 2 0 4 8 34.40 24.86 2.6067 2 2 0 4 35.24 2.21 2.5469 1 1 6 4 37.46 38.66 2.4008 2 1 5 8 37.98 18.14 2.3692 1 0 7 8 38.62 8.98 2.3315 3 1 0 8 39.37 24.06 2.2884 2 0 6 8 39.80 2.20 2.2651 3 0 3 8 40.26 2.35 2.2398 2 2 4 4 41.24 1.19 2.1891 0 0 8 2 44.00 6.53 2.0579 3 1 4 8 44.61 2.39 2.0311 3 2 1 8 45.06 4.41 2.0118 3 0 5 8 45.51 3.89 1.9931 2 1 7 8 47.09 1.03 1.9299 3 2 3 8 49.45 17.46 1.8433 4 0 0 4 50.07 2.27 1.8217 3 1 6 8 51.36 5.35 1.7790 4 1 1 8 51.77 17.32 1.7660 3 2 5 8 52.17 3.10 1.7532 3 0 7 8 53.78 8.06 1.7046 3 3 2 4 53.97 6.11 1.6988 4 0 4 8 54.76 2.17 1.6764 2 2 8 4 55.76 1.34 1.6487 4 2 0 8 56.83 6.75 1.6202 4 2 2 8 57.77 3.35 1.5959 3 1 8 8 57.90 8.84 1.5927 4 1 5 8 58.27 8.40 1.5833 3 2 7 8 58.33 13.77 1.5819 2 0 10 8 59.39 5.40 1.5562 1 0 11 8 62.17 1.74 1.4932 3 3 6 4 63.29 4.22 1.4694 4 3 1 8 63.77 3.60 1.4594 0 0 12 2 64.00 6.52 1.4548 4 1 7 8 64.96 11.53 1.4355 4 2 6 8 65.06 3.84 1.4337 2 1 11 8 65.26 1.86 1.4297 4 3 3 8 65.42 3.30 1.4266 5 1 2 8 66.31 3.00 1.4097 3 2 9 8 68.32 2.29 1.3730 5 1 4 8 68.78 5.95 1.3650 5 2 1 8 69.12 2.72 1.3591 4 3 5 8 69.12 2.99 1.3591 5 0 5 8 70.47 1.35 1.3362 3 0 11 8 70.67 5.83 1.3330 5 2 3 8 71.66 1.00 1.3170 4 2 8 8 71.68 1.53 1.3167 4 1 9 8 72.52 2.39 1.3034 4 4 0 4 73.02 3.67 1.2957 5 1 6 8 74.39 1.88 1.2752 5 2 5 8 74.51 6.76 1.2734 2 2 12 4 74.72 1.05 1.2704 4 3 7 8 74.72 3.10 1.2704 5 0 7 8 75.13 1.13 1.2645 5 3 0 8 76.05 1.00 1.2515 5 3 2 8 76.21 2.33 1.2492 4 4 4 4 76.37 1.77 1.2471 2 1 13 8 77.10 1.57 1.2371 3 1 12 8 77.36 1.53 1.2336 3 3 10 4 78.78 2.63 1.2148 5 3 4 8 79.22 1.75 1.2092 6 1 1 8 79.43 1.34 1.2065 5 1 8 8 79.91 4.82 1.2004 4 2 10 8 80.83 3.58 1.1891 4 1 11 8 82.80 1.51 1.1658 6 2 0 8 84.60 1.55 1.1455 6 1 5 8 84.72 1.77 1.1442 4 0 12 8 87.48 1.71 1.1150 5 1 10 8 89.51 1.92 1.0949 5 3 8 8 89.62 1.28 1.0939 5 4 5 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.