La6MgSi2S14 Gitzendanner R, Spencer C, DiSalvo F, Pell M, Ibers J Journal of Solid State Chemistry 131 (1997) 399-404 Synthesis and structure of a new quaternary rare-earth sulfide, La6MgGe2S14, and the related compound La6MgSi2S14 _cod_database_code 1005056 _database_code_amcsd 0013931 CELL PARAMETERS: 10.3630 10.3630 5.7420 90.000 90.000 120.000 SPACE GROUP: P6_3 X-RAY WAVELENGTH: 1.541838 Cell Volume: 534.029 Density (g/cm3): 4.237 MAX. ABS. INTENSITY / VOLUME**2: 51.21623863 RIR: 3.936 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.86 1.95 8.9746 1 0 0 6 17.11 12.33 5.1815 1 1 0 6 18.34 28.48 4.8368 1 0 1 6 19.78 36.87 4.4873 2 0 0 6 23.12 48.49 3.8468 1 1 1 6 25.19 100.00 3.5357 2 0 1 6 26.27 22.76 3.3921 1 2 0 6 26.27 9.07 3.3921 2 1 0 6 30.61 3.24 2.9205 2 1 1 6 30.61 8.04 2.9205 1 2 1 6 31.15 22.13 2.8710 0 0 2 1 32.75 9.50 2.7345 1 0 2 6 33.78 24.91 2.6531 3 0 1 6 34.62 26.01 2.5907 2 2 0 6 35.76 22.84 2.5113 1 1 2 6 36.08 39.61 2.4891 1 3 0 6 36.08 14.43 2.4891 3 1 0 6 37.18 31.23 2.4184 2 0 2 6 38.11 2.13 2.3615 2 2 1 6 39.46 54.58 2.2838 3 1 1 6 40.19 6.79 2.2437 4 0 0 6 41.19 30.34 2.1914 1 2 2 6 41.19 5.84 2.1914 2 1 2 6 43.30 5.12 2.0898 4 0 1 6 43.98 4.86 2.0589 3 2 0 6 46.36 3.44 1.9584 4 1 0 6 46.88 6.59 1.9381 2 3 1 6 46.88 4.42 1.9381 3 2 1 6 47.26 10.08 1.9234 2 2 2 6 48.40 10.98 1.8807 1 3 2 6 48.40 13.79 1.8807 3 1 2 6 48.64 3.21 1.8719 1 0 3 6 49.15 21.45 1.8536 1 4 1 6 50.86 4.12 1.7954 1 1 3 6 51.71 2.51 1.7678 4 0 2 6 51.94 11.79 1.7605 2 0 3 6 53.49 8.58 1.7132 5 0 1 6 54.87 2.02 1.6731 3 2 2 6 55.09 2.23 1.6669 1 2 3 6 55.56 12.83 1.6540 3 3 1 6 56.58 4.40 1.6266 4 2 1 6 56.91 1.32 1.6179 1 4 2 6 57.13 2.70 1.6123 3 0 3 6 57.14 6.30 1.6119 5 1 0 6 59.57 1.27 1.5519 1 5 1 6 61.07 13.37 1.5173 3 1 3 6 62.78 4.83 1.4800 3 3 2 6 63.00 1.63 1.4754 3 4 0 6 63.00 2.32 1.4754 4 3 0 6 63.73 1.26 1.4603 4 2 2 6 63.93 2.12 1.4561 4 0 3 6 64.36 2.21 1.4475 6 0 1 6 64.88 1.04 1.4371 5 2 0 6 64.88 5.16 1.4371 2 5 0 6 64.96 4.99 1.4355 0 0 4 1 65.30 5.89 1.4290 4 3 1 6 66.53 9.52 1.4055 5 1 2 6 66.53 2.51 1.4055 1 5 2 6 66.73 2.06 1.4018 2 3 3 6 66.73 1.96 1.4018 3 2 3 6 67.73 1.31 1.3834 1 1 4 6 68.55 6.46 1.3688 1 4 3 6 68.57 1.86 1.3686 1 6 0 6 68.64 1.33 1.3672 2 0 4 6 70.77 6.96 1.3313 1 6 1 6 70.77 1.55 1.3313 6 1 1 6 71.34 2.92 1.3220 1 2 4 6 71.95 1.90 1.3123 3 4 2 6 71.95 1.73 1.3123 4 3 2 6 72.15 3.24 1.3093 5 0 3 6 73.72 5.62 1.2851 2 5 2 6 73.91 4.75 1.2823 3 3 3 6 75.19 2.11 1.2636 4 4 1 6 75.75 2.40 1.2556 2 2 4 6 76.06 3.68 1.2513 5 3 1 6 76.06 3.51 1.2513 7 0 1 6 76.62 6.60 1.2435 1 3 4 6 76.62 1.74 1.2435 3 1 4 6 78.66 2.60 1.2163 6 2 1 6 81.52 1.10 1.1808 4 4 2 6 81.71 1.35 1.1786 6 0 3 6 82.38 1.07 1.1707 7 0 2 6 82.56 1.89 1.1685 4 3 3 6 82.95 1.99 1.1640 7 1 1 6 86.82 1.80 1.1218 8 0 0 6 87.65 3.04 1.1133 1 6 3 6 87.73 1.12 1.1125 2 0 5 6 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.