Arsenopalladinite Karimova O V, Zolotarev A A, Johanson B S, Evstigneeva T L Mineralogical Magazine 84 (2020) 746-752 The crystal structure of arsenopalladinite, Pd8As2.5Sb0.5, and its relation to mertieite-II, Pd8Sb2.5As0.5 Locality: Kaarreoja River, Inari commune, Finnish Lapland, Finland _database_code_amcsd 0020905 CELL PARAMETERS: 7.3344 7.3870 7.5255 98.869 102.566 119.096 SPACE GROUP: P-1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 331.190 Density (g/cm3): 11.024 MAX. ABS. INTENSITY / VOLUME**2: 65.67752360 RIR: 1.940 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 16.03 1.06 5.5285 0 -1 1 2 25.32 2.16 3.5182 -2 1 1 2 28.83 2.50 3.0964 -1 -1 2 2 29.34 2.25 3.0443 -1 2 1 2 29.63 1.92 3.0149 2 0 0 2 30.47 1.39 2.9338 -2 2 1 2 30.54 1.13 2.9273 2 -1 1 2 31.47 10.37 2.8428 2 -2 1 2 31.52 1.34 2.8383 -2 1 2 2 31.96 6.54 2.8007 -2 0 2 2 32.57 5.81 2.7489 1 -2 2 2 32.75 4.64 2.7346 1 1 1 2 36.22 38.81 2.4801 2 0 1 2 36.29 5.68 2.4753 -1 0 3 2 36.93 18.83 2.4342 -2 -1 1 2 37.33 9.98 2.4086 1 -3 1 2 37.42 6.14 2.4031 -3 1 1 2 37.48 13.37 2.3997 -2 3 0 2 37.48 19.26 2.3994 -2 2 2 2 37.76 26.95 2.3821 -1 -1 3 2 38.01 35.01 2.3676 -1 3 0 2 38.06 16.51 2.3644 -3 2 0 2 38.12 22.07 2.3605 -3 2 1 2 38.35 25.86 2.3474 -1 2 2 2 38.59 1.26 2.3332 2 -3 1 2 38.61 15.79 2.3319 0 0 3 2 38.67 38.89 2.3287 -1 -2 2 2 38.92 18.16 2.3140 -3 1 0 2 39.14 28.95 2.3013 2 -2 2 2 39.43 14.10 2.2851 1 2 0 2 39.91 26.64 2.2590 2 -1 2 2 40.07 16.16 2.2500 -2 0 3 2 40.38 8.52 2.2336 -3 1 2 2 40.66 5.39 2.2189 -1 1 3 2 40.81 2.83 2.2114 -2 3 1 2 40.83 9.90 2.2103 0 -2 3 2 41.09 8.76 2.1968 1 -3 2 2 41.21 90.22 2.1908 -2 1 3 2 41.83 1.69 2.1594 1 -1 3 2 42.00 67.89 2.1514 0 -3 1 2 42.31 5.32 2.1361 3 -2 1 2 42.37 74.12 2.1331 -3 0 1 2 42.49 3.19 2.1275 -3 2 2 2 42.62 81.01 2.1213 1 -2 3 2 42.79 69.17 2.1132 -3 3 0 2 42.92 81.52 2.1070 1 1 2 2 42.93 18.48 2.1068 -1 3 1 2 43.68 1.27 2.0722 -3 0 2 2 44.25 1.14 2.0468 -3 3 1 2 44.34 10.96 2.0428 -2 -1 3 2 44.50 1.45 2.0361 3 -1 1 2 44.59 10.60 2.0321 -1 -2 3 2 44.79 5.90 2.0233 0 2 2 2 45.11 1.19 2.0099 3 0 0 2 45.35 1.61 1.9998 3 -3 1 2 45.95 5.48 1.9750 1 2 1 2 46.26 1.05 1.9627 1 0 3 2 47.10 2.25 1.9295 -3 1 3 2 47.42 1.58 1.9171 -2 2 3 2 47.80 9.76 1.9028 -2 3 2 2 48.42 3.37 1.8801 1 -3 3 2 48.77 1.48 1.8671 -3 0 3 2 48.97 4.32 1.8601 -1 -1 4 2 49.07 2.13 1.8564 -1 0 4 2 49.25 3.74 1.8501 -2 -2 1 2 49.32 8.46 1.8476 -2 -2 2 2 49.45 2.09 1.8432 -3 3 2 2 49.46 6.95 1.8428 0 -3 3 2 49.59 4.80 1.8382 -1 2 3 2 49.65 4.11 1.8362 2 -4 1 2 50.02 7.76 1.8236 -2 4 0 2 50.05 6.49 1.8224 0 3 1 2 50.24 1.48 1.8159 -3 2 3 2 50.70 3.35 1.8006 -2 0 4 2 51.12 2.33 1.7867 -4 2 0 2 51.37 3.91 1.7787 2 -1 3 2 51.38 3.39 1.7784 3 0 1 2 51.45 2.80 1.7761 3 -3 2 2 51.56 1.87 1.7727 -3 -1 2 2 51.65 2.50 1.7697 -3 -1 1 2 52.31 1.92 1.7489 0 0 4 2 52.39 5.37 1.7463 -4 3 1 2 52.72 4.61 1.7361 -4 1 2 2 52.87 1.51 1.7318 -2 1 4 2 53.00 1.48 1.7278 1 -4 2 2 54.51 1.36 1.6834 1 3 0 2 54.94 1.05 1.6712 -3 -1 3 2 55.90 1.16 1.6449 4 -2 1 2 57.06 1.09 1.6141 -4 1 3 2 57.29 1.43 1.6082 3 -4 2 2 57.82 1.17 1.5946 -4 0 2 2 58.06 1.88 1.5886 -4 0 1 2 58.21 3.00 1.5849 -4 4 0 2 58.32 1.54 1.5822 1 -3 4 2 59.73 7.79 1.5482 -2 -2 4 2 60.39 1.26 1.5327 3 0 2 2 60.86 6.54 1.5222 -2 4 2 2 61.41 1.31 1.5098 -3 -1 4 2 61.93 2.01 1.4983 -1 -3 4 2 62.78 2.38 1.4800 -3 -2 2 2 63.57 10.29 1.4636 4 -2 2 2 64.02 1.74 1.4543 -3 5 0 2 64.59 1.35 1.4430 -1 -2 5 2 64.94 1.51 1.4360 2 -5 2 2 65.69 3.70 1.4214 4 -4 2 2 65.74 1.14 1.4204 -5 3 2 2 65.81 2.41 1.4191 -4 2 4 2 66.26 1.80 1.4105 -5 2 0 2 66.64 1.41 1.4034 -4 -1 2 2 66.71 3.51 1.4021 1 2 3 2 66.81 2.66 1.4003 -4 0 4 2 66.87 9.51 1.3991 0 0 5 2 67.17 2.32 1.3937 -1 -4 1 2 67.23 2.16 1.3925 1 -5 2 2 67.41 4.66 1.3893 -5 1 2 2 67.54 2.71 1.3869 -4 5 0 2 67.74 8.16 1.3832 2 3 0 2 67.89 3.12 1.3807 1 -2 5 2 67.90 2.69 1.3804 4 0 1 2 68.00 3.56 1.3786 -5 4 1 2 68.01 1.27 1.3785 -1 1 5 2 68.10 1.79 1.3769 -3 1 5 2 68.33 3.92 1.3728 -5 2 3 2 68.35 3.10 1.3724 1 1 4 2 68.38 4.17 1.3719 -3 4 3 2 68.44 1.10 1.3709 4 -1 2 2 68.49 1.44 1.3700 -1 -4 3 2 68.75 1.37 1.3655 0 -3 5 2 69.00 2.80 1.3610 -2 5 1 2 69.28 1.01 1.3563 -1 5 0 2 69.39 1.32 1.3544 1 -1 5 2 69.58 4.70 1.3512 5 -3 1 2 69.62 9.13 1.3504 2 -5 3 2 69.71 1.13 1.3489 0 3 3 2 69.81 1.62 1.3472 -2 -3 4 2 70.04 1.46 1.3434 -5 1 3 2 70.24 2.35 1.3400 1 -3 5 2 70.42 2.78 1.3371 -4 4 3 2 70.47 4.76 1.3363 -5 3 3 2 70.48 2.12 1.3360 -3 -1 5 2 70.74 1.41 1.3318 -5 4 2 2 71.55 1.43 1.3187 5 -2 1 2 72.28 2.86 1.3072 3 -2 4 2 72.66 1.63 1.3013 -3 2 5 2 73.05 1.77 1.2953 -4 -1 4 2 73.44 4.07 1.2894 0 -5 2 2 73.55 1.17 1.2877 -1 -4 4 2 74.12 1.01 1.2793 0 -5 1 2 74.12 2.80 1.2791 -1 3 4 2 74.39 2.18 1.2753 -4 5 2 2 74.65 1.48 1.2714 1 0 5 2 74.67 1.08 1.2712 -1 5 1 2 75.40 1.45 1.2606 2 -2 5 2 75.52 1.50 1.2589 -5 1 4 2 75.96 4.06 1.2527 -1 -1 6 2 76.32 1.09 1.2477 -5 4 3 2 76.47 1.96 1.2456 -4 2 5 2 76.68 3.67 1.2428 -1 2 5 2 76.70 4.62 1.2425 -3 -3 2 2 76.84 1.53 1.2406 3 -1 4 2 76.95 4.41 1.2391 1 -5 4 2 77.02 3.05 1.2381 -2 -1 6 2 77.05 1.88 1.2377 -2 0 6 2 77.57 1.39 1.2307 -2 -3 5 2 77.58 5.03 1.2306 1 4 1 2 77.60 1.71 1.2303 -1 -2 6 2 77.92 1.84 1.2261 -5 3 4 2 78.87 2.41 1.2136 2 -1 5 2 79.07 7.84 1.2111 4 1 1 2 79.22 7.40 1.2092 4 -5 3 2 79.27 2.59 1.2086 -4 -2 3 2 79.47 2.75 1.2059 5 0 0 2 79.52 1.35 1.2053 5 -2 2 2 79.86 1.69 1.2010 -5 0 4 2 79.91 1.29 1.2004 -3 0 6 2 80.44 3.69 1.1939 -4 -1 5 2 80.67 1.95 1.1911 -2 -2 6 2 80.77 1.20 1.1898 -3 3 5 2 81.12 1.97 1.1856 -3 -3 4 2 81.31 3.19 1.1833 -1 -4 5 2 81.89 2.60 1.1763 5 -5 2 2 81.96 3.56 1.1755 -4 5 3 2 82.12 2.28 1.1737 -2 4 4 2 82.55 1.72 1.1686 3 1 3 2 82.74 3.16 1.1665 -1 5 2 2 82.78 1.46 1.1659 0 0 6 2 82.84 2.60 1.1653 -2 3 5 2 84.67 1.26 1.1447 3 -3 5 2 84.95 1.36 1.1416 3 0 4 2 86.08 2.05 1.1295 4 -2 4 2 86.52 1.95 1.1249 3 -4 5 2 88.41 1.32 1.1057 0 -5 5 2 89.46 2.09 1.0954 -4 2 6 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.