Stephanite Leitl M, Pfitzner A, Bindi L Mineralogical Magazine 73 (2009) 17-26 Preferred ion diffusion pathways and activation energies for Ag in the crystal structure of stephanite, Ag5SbS4 Locality: Freiberg District, Saxony, Germany Note: y-coordinate of Sb altered by Bindi, June 2009 _database_code_amcsd 0014585 CELL PARAMETERS: 7.8329 12.4580 8.5272 90.000 90.000 90.000 SPACE GROUP: Cmc2_1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 832.104 Density (g/cm3): 6.300 MAX. ABS. INTENSITY / VOLUME**2: 63.46659262 RIR: 3.280 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.35 1.92 6.6311 1 1 0 4 14.22 5.94 6.2290 0 2 0 2 16.94 4.64 5.2346 1 1 1 4 17.63 1.10 5.0299 0 2 1 2 20.83 3.50 4.2636 0 0 2 1 22.70 2.21 3.9165 2 0 0 2 24.26 9.11 3.6689 1 3 0 4 24.83 22.53 3.5863 1 1 2 4 25.31 18.51 3.5183 0 2 2 2 26.45 14.95 3.3702 1 3 1 4 26.89 2.38 3.3156 2 2 0 4 28.66 16.19 3.1145 0 4 0 2 28.89 100.00 3.0902 2 2 1 4 30.56 46.36 2.9255 0 4 1 2 31.01 46.49 2.8843 2 0 2 2 32.19 23.34 2.7810 1 3 2 4 34.33 4.69 2.6125 1 1 3 4 34.69 66.67 2.5859 0 2 3 2 35.70 19.07 2.5150 0 4 2 2 36.71 27.70 2.4479 3 1 1 4 37.89 1.03 2.3744 1 5 0 4 38.41 16.01 2.3438 2 4 1 4 39.39 3.07 2.2874 1 5 1 4 40.13 1.88 2.2470 1 3 3 4 40.82 5.17 2.2104 3 3 0 4 41.18 24.35 2.1919 3 1 2 4 41.86 8.33 2.1580 2 2 3 4 42.24 20.07 2.1397 3 3 1 4 42.40 4.56 2.1318 0 0 4 1 42.73 14.84 2.1162 2 4 2 4 43.09 3.16 2.0995 0 4 3 2 43.63 3.94 2.0744 1 5 2 4 44.93 6.62 2.0174 0 6 1 2 46.26 1.28 1.9623 3 3 2 4 46.37 5.44 1.9582 4 0 0 2 47.87 7.32 1.9004 3 1 3 4 48.63 8.98 1.8724 2 0 4 2 48.78 9.82 1.8667 0 6 2 2 49.24 10.58 1.8504 2 4 3 4 49.45 9.05 1.8432 1 3 4 4 49.70 12.10 1.8345 2 6 0 4 49.98 6.09 1.8248 4 2 1 4 50.06 2.15 1.8222 1 5 3 4 50.64 1.58 1.8025 3 5 0 4 50.92 8.00 1.7934 2 6 1 4 50.93 6.14 1.7931 2 2 4 4 51.34 3.64 1.7795 4 0 2 2 51.84 3.70 1.7636 3 5 1 4 53.91 3.49 1.7006 1 7 1 4 54.45 2.16 1.6851 2 6 2 4 54.75 1.19 1.6766 0 6 3 2 55.33 5.89 1.6603 3 5 2 4 55.65 4.98 1.6517 1 1 5 4 55.90 1.77 1.6449 0 2 5 2 56.19 6.68 1.6370 3 1 4 4 56.55 3.51 1.6273 4 4 1 4 57.42 3.47 1.6047 2 4 4 4 58.16 1.48 1.5863 1 5 4 4 59.18 1.58 1.5611 4 2 3 4 60.32 2.47 1.5344 3 3 4 4 60.55 1.12 1.5291 5 1 1 4 60.85 6.31 1.5223 3 5 3 4 62.04 1.45 1.4959 0 4 5 2 62.73 1.92 1.4812 1 7 3 4 63.23 2.15 1.4706 3 7 0 4 63.47 1.44 1.4657 5 3 0 4 63.61 1.44 1.4627 0 8 2 2 63.73 3.30 1.4603 5 1 2 4 64.51 2.16 1.4446 5 3 1 4 65.42 1.18 1.4267 2 8 1 4 65.70 1.03 1.4212 0 0 6 1 67.58 1.97 1.3861 5 3 2 4 67.61 1.35 1.3856 0 2 6 2 67.64 1.48 1.3852 1 5 5 4 68.47 2.48 1.3703 2 8 2 4 69.58 1.62 1.3512 4 6 2 4 69.63 3.08 1.3502 3 3 5 4 71.60 1.08 1.3179 0 6 5 2 72.19 1.00 1.3087 4 4 4 4 72.35 1.01 1.3061 3 7 3 4 72.39 1.94 1.3055 6 0 0 2 75.00 1.16 1.2664 5 5 2 4 75.62 1.83 1.2575 0 8 4 2 76.22 1.53 1.2491 2 6 5 4 77.42 1.71 1.2327 0 10 1 2 77.79 1.32 1.2278 2 4 6 4 78.15 1.43 1.2230 3 9 0 4 79.33 1.64 1.2078 5 3 4 4 79.80 1.24 1.2018 5 5 3 4 80.32 2.35 1.1954 3 3 6 4 82.83 2.09 1.1654 6 2 3 4 82.87 1.01 1.1649 5 7 1 4 84.30 1.56 1.1488 5 1 5 4 86.67 1.28 1.1234 3 9 3 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.