Stellerite Arletti R, Mazzucato E, Vezzalini G American Mineralogist 91 (2006) 628-634 Influence of dehydration kinetics on T-O-T bridge breaking in zeolites with framework type STI: The case of stellerite Locality: Seremida, Sardinia, Italy Sample: T = 302 K Note: occupancies invented to match formula _database_code_amcsd 0004140 CELL PARAMETERS: 13.5947 18.1823 17.8335 90.000 90.000 90.000 SPACE GROUP: Fmmm X-RAY WAVELENGTH: 1.541838 Cell Volume: 4408.137 Density (g/cm3): 2.242 MAX. ABS. INTENSITY / VOLUME**2: 7.661785113 RIR: 1.113 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.52 1.87 9.2928 1 1 1 8 9.73 100.00 9.0912 0 2 0 2 9.92 21.02 8.9167 0 0 2 2 13.02 1.15 6.7973 2 0 0 2 13.91 1.59 6.3659 0 2 2 4 16.28 2.91 5.4439 2 2 0 4 16.40 7.18 5.4058 2 0 2 4 16.77 4.12 5.2867 1 3 1 8 19.10 48.06 4.6464 2 2 2 8 19.91 3.48 4.4584 0 0 4 2 20.81 31.25 4.2692 3 1 1 8 21.94 57.12 4.0511 1 3 3 8 21.95 12.33 4.0497 0 4 2 4 22.21 10.40 4.0029 0 2 4 4 23.87 20.57 3.7280 2 0 4 4 25.60 9.20 3.4791 2 4 2 8 26.22 14.27 3.3987 4 0 0 2 26.29 17.86 3.3895 1 1 5 8 28.03 16.55 3.1835 4 2 0 4 28.03 2.01 3.1829 0 4 4 4 28.10 18.36 3.1758 4 0 2 4 28.82 12.02 3.0976 3 3 3 8 29.48 2.11 3.0304 0 6 0 2 29.54 39.66 3.0243 1 5 3 8 29.80 25.26 2.9982 1 3 5 8 29.80 12.64 2.9981 4 2 2 8 30.07 2.27 2.9722 0 0 6 2 31.17 1.55 2.8692 0 6 2 4 31.67 2.76 2.8251 0 2 6 4 32.35 15.21 2.7678 2 6 0 4 33.14 10.01 2.7029 4 0 4 4 34.38 4.37 2.6088 2 2 6 8 34.45 2.12 2.6034 4 4 2 8 34.62 1.97 2.5908 4 2 4 8 35.06 11.53 2.5598 3 5 3 8 35.28 1.76 2.5439 3 3 5 8 35.55 1.10 2.5256 1 7 1 8 35.83 2.24 2.5062 0 6 4 4 36.11 4.51 2.4876 0 4 6 4 36.21 2.47 2.4806 1 1 7 8 36.68 6.02 2.4500 5 1 3 8 38.28 1.90 2.3515 2 6 4 8 38.39 1.73 2.3445 1 7 3 8 38.92 1.46 2.3143 1 3 7 8 39.78 2.95 2.2658 6 0 0 2 40.46 1.76 2.2292 0 0 8 2 40.94 2.79 2.2044 3 1 7 8 41.05 1.02 2.1985 6 2 0 4 41.72 1.02 2.1651 0 2 8 4 42.08 1.71 2.1472 5 1 5 8 42.61 1.90 2.1220 0 6 6 4 42.69 1.12 2.1182 2 0 8 4 43.18 2.46 2.0951 2 8 2 8 43.40 1.24 2.0852 3 3 7 8 43.89 2.71 2.0629 2 2 8 8 43.90 3.29 2.0624 1 5 7 8 44.30 1.82 2.0447 5 5 3 8 44.49 7.19 2.0366 5 3 5 8 44.69 1.66 2.0278 6 4 0 4 44.76 1.03 2.0249 0 8 4 4 46.03 1.42 1.9718 6 2 4 8 48.03 1.18 1.8942 1 9 3 8 48.16 2.36 1.8893 4 8 0 4 48.75 1.12 1.8678 5 7 1 8 49.01 2.20 1.8586 5 5 5 8 50.17 3.26 1.8182 0 10 0 2 50.52 1.84 1.8065 3 1 9 8 50.55 2.10 1.8054 0 8 6 4 51.23 2.70 1.7833 0 0 10 2 51.39 2.31 1.7782 6 6 2 8 51.77 1.49 1.7660 7 3 3 8 52.72 1.40 1.7361 2 6 8 8 53.15 1.80 1.7234 2 10 2 8 53.96 1.35 1.6993 8 0 0 2 54.00 3.68 1.6982 7 1 5 8 54.35 1.45 1.6879 3 7 7 8 54.97 3.01 1.6704 8 2 0 4 55.28 3.51 1.6618 5 7 5 8 56.01 1.79 1.6418 8 2 2 8 57.95 2.57 1.5915 0 8 8 4 58.09 1.20 1.5879 8 0 4 4 58.10 4.41 1.5877 4 6 8 8 58.44 1.64 1.5793 6 8 2 8 59.01 1.25 1.5653 6 2 8 8 59.03 1.49 1.5650 1 7 9 8 59.40 1.37 1.5559 1 3 11 8 59.40 1.89 1.5559 4 2 10 8 59.61 1.16 1.5510 0 10 6 4 59.67 1.51 1.5496 2 8 8 8 64.67 3.03 1.4413 4 8 8 8 65.60 1.17 1.4231 9 3 3 8 65.68 1.23 1.4216 7 5 7 8 68.25 1.23 1.3742 5 11 3 8 70.44 1.94 1.3368 8 2 8 8 71.07 1.16 1.3264 8 6 6 8 71.90 2.00 1.3132 5 11 5 8 72.64 1.38 1.3016 4 10 8 8 72.80 1.84 1.2991 9 5 5 8 77.26 1.22 1.2349 3 5 13 8 77.31 1.07 1.2343 8 6 8 8 83.16 1.15 1.1616 8 8 8 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.