Na2S*5H2O Bedlivy D, Preisinger A Zeitschrift fur Kristallographie 121 (1965) 131-144 Die kristallstruktur von Na2S*5H2O, Na2Se*5H2O und Na2Te*5H2O _database_code_amcsd 0010615 CELL PARAMETERS: 6.4750 12.5450 8.6550 90.000 90.000 90.000 SPACE GROUP: Cmcm X-RAY WAVELENGTH: 1.541838 Cell Volume: 703.036 Density (g/cm3): 1.690 MAX. ABS. INTENSITY / VOLUME**2: 4.157039656 RIR: 0.801 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 14.12 31.61 6.2725 0 2 0 2 17.46 1.13 5.0789 0 2 1 4 18.52 9.14 4.7916 1 1 1 8 25.00 6.08 3.5620 0 2 2 4 25.35 25.25 3.5128 1 3 0 4 25.76 45.25 3.4585 1 1 2 8 27.40 78.28 3.2549 1 3 1 8 27.55 1.25 3.2375 2 0 0 2 28.46 30.96 3.1363 0 4 0 2 30.31 15.00 2.9486 0 4 1 4 31.09 8.02 2.8769 2 2 0 4 32.81 78.49 2.7300 2 2 1 8 32.84 4.94 2.7273 1 3 2 8 34.21 100.00 2.6211 0 2 3 4 34.60 85.10 2.5923 2 0 2 4 34.79 3.44 2.5790 1 1 3 8 35.34 5.42 2.5395 0 4 2 4 37.54 2.90 2.3958 2 2 2 8 38.48 3.89 2.3395 1 5 0 4 39.92 13.18 2.2585 1 5 1 8 40.03 50.03 2.2526 2 4 0 4 40.46 17.68 2.2295 1 3 3 8 41.42 10.12 2.1800 2 4 1 8 41.74 13.72 2.1637 0 0 4 2 42.50 1.51 2.1271 3 1 0 4 42.58 4.32 2.1233 0 4 3 4 43.83 1.86 2.0656 3 1 1 8 44.00 43.85 2.0580 1 5 2 8 44.28 2.89 2.0455 0 2 4 4 44.47 16.94 2.0371 2 2 3 8 44.58 2.26 2.0324 0 6 1 4 45.39 38.15 1.9981 2 4 2 8 47.64 12.09 1.9089 3 1 2 8 48.62 8.57 1.8725 3 3 1 8 49.47 4.26 1.8423 1 3 4 8 50.21 7.88 1.8171 1 5 3 8 50.75 25.73 1.7990 2 0 4 4 51.30 2.44 1.7810 0 4 4 4 51.47 5.66 1.7755 2 4 3 8 52.07 1.57 1.7564 2 6 0 4 52.95 2.98 1.7292 2 2 4 8 53.02 1.05 1.7272 1 7 0 4 53.21 6.27 1.7213 2 6 1 8 54.15 1.98 1.6938 1 7 1 8 54.18 12.01 1.6930 0 6 3 4 55.03 1.97 1.6686 0 2 5 4 56.22 2.64 1.6362 3 5 0 4 56.55 1.22 1.6275 2 6 2 8 56.88 19.77 1.6187 4 0 0 2 57.31 4.99 1.6077 3 5 1 8 57.72 8.92 1.5972 3 3 3 8 58.07 2.41 1.5885 1 5 4 8 58.89 1.95 1.5681 0 8 0 2 59.54 5.67 1.5527 1 3 5 8 59.95 1.44 1.5430 0 8 1 4 60.49 9.63 1.5305 3 5 2 8 61.15 1.51 1.5155 0 4 5 4 61.84 8.55 1.5002 2 6 3 8 62.63 15.01 1.4832 2 2 5 8 63.05 11.91 1.4743 0 8 2 4 64.61 5.62 1.4425 0 0 6 2 64.82 2.26 1.4384 4 4 0 4 64.98 1.92 1.4353 3 3 4 8 65.59 1.12 1.4233 3 5 3 8 65.82 2.23 1.4190 4 4 1 8 66.22 6.88 1.4113 2 8 0 4 66.87 2.76 1.3992 1 1 6 8 67.21 2.07 1.3929 2 8 1 8 67.29 1.71 1.3915 1 5 5 8 67.99 1.09 1.3788 3 7 0 4 68.05 1.09 1.3778 0 8 3 4 68.08 12.77 1.3773 4 2 3 8 68.34 1.73 1.3726 2 4 5 8 68.91 2.03 1.3627 1 9 0 4 69.65 1.08 1.3499 1 7 4 8 69.88 1.12 1.3461 1 9 1 8 70.65 1.66 1.3333 0 6 5 4 72.07 4.19 1.3105 0 4 6 4 72.99 3.34 1.2962 4 0 4 4 73.58 1.33 1.2873 4 4 3 8 73.73 1.25 1.2850 3 3 5 8 76.59 1.07 1.2440 3 7 3 8 76.77 2.20 1.2415 0 10 1 4 77.10 1.12 1.2370 5 3 0 4 77.41 3.17 1.2329 2 6 5 8 77.78 4.01 1.2279 1 5 6 8 78.03 2.22 1.2246 5 3 1 8 78.78 1.11 1.2148 2 4 6 8 80.83 1.50 1.1891 3 5 5 8 82.35 1.64 1.1709 3 9 0 4 82.43 3.08 1.1700 4 6 3 8 82.75 1.25 1.1663 1 3 7 8 83.92 2.18 1.1531 1 9 4 8 87.77 3.84 1.1121 5 5 2 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.