Cd Li2 O12 P4 Averbuch-Pouchot M, Tordjman I, Guitel J Acta Crystallographica B32 (1976) 2953-2956 Structures cristallines des polyphosphates de cadmium-lithium et de mercure-lithium Cd Li2 (P O3)4 et Hg Li2 (P O3)4 _cod_database_code 1008009 _database_code_amcsd 0015957 CELL PARAMETERS: 9.4950 10.1500 9.3750 90.000 90.000 90.000 SPACE GROUP: Pnam X-RAY WAVELENGTH: 1.541838 Cell Volume: 903.509 Density (g/cm3): 3.250 MAX. ABS. INTENSITY / VOLUME**2: 14.30626164 RIR: 1.433 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 12.85 100.00 6.8868 0 1 1 4 18.69 2.53 4.7475 2 0 0 2 18.93 50.44 4.6875 0 0 2 2 19.84 17.63 4.4758 1 2 0 4 22.01 44.04 4.0391 1 2 1 8 22.75 86.95 3.9087 2 1 1 8 22.90 12.36 3.8834 1 1 2 8 25.70 72.91 3.4670 2 2 0 4 25.87 3.88 3.4434 0 2 2 4 26.73 28.35 3.3356 2 0 2 4 27.55 90.73 3.2371 1 2 2 8 28.00 23.19 3.1870 1 3 0 4 28.04 17.21 3.1824 0 3 1 4 28.16 24.28 3.1688 2 1 2 8 29.56 40.66 3.0215 3 1 0 4 29.60 13.56 3.0175 1 3 1 8 31.40 11.07 2.8490 1 1 3 8 32.11 34.66 2.7874 2 2 2 8 33.91 2.95 2.6435 2 3 1 8 34.02 14.89 2.6356 1 3 2 8 34.36 1.45 2.6103 2 0 3 4 34.75 5.95 2.5817 3 2 1 8 35.02 9.56 2.5623 1 2 3 8 35.34 4.24 2.5396 3 1 2 8 35.51 41.98 2.5280 2 1 3 8 37.88 1.22 2.3753 2 3 2 8 37.94 14.47 2.3717 1 4 1 8 38.41 21.22 2.3438 0 0 4 2 38.64 3.56 2.3302 3 2 2 8 38.79 1.29 2.3212 2 2 3 8 38.97 2.17 2.3114 4 1 0 4 38.97 7.14 2.3113 3 3 0 4 39.25 3.70 2.2956 0 3 3 4 40.18 14.07 2.2442 4 1 1 8 40.30 4.36 2.2379 2 4 0 4 40.42 4.49 2.2315 0 4 2 4 40.42 2.30 2.2313 1 3 3 8 40.63 5.25 2.2203 1 1 4 8 41.48 6.26 2.1767 2 4 1 8 41.57 2.33 2.1723 1 4 2 8 42.02 2.43 2.1502 4 2 0 4 42.48 4.84 2.1278 0 2 4 4 42.70 6.91 2.1177 4 0 2 4 43.17 1.25 2.0958 4 2 1 8 43.66 11.38 2.0730 3 3 2 8 44.00 2.85 2.0579 2 1 4 8 44.48 10.05 2.0368 3 2 3 8 45.70 5.03 1.9851 1 5 0 4 46.46 5.50 1.9544 4 2 2 8 46.78 1.61 1.9421 1 5 1 8 46.79 10.62 1.9417 2 2 4 8 46.90 17.66 1.9371 3 4 1 8 47.12 17.81 1.9288 1 4 3 8 47.80 1.55 1.9027 4 3 1 8 48.20 1.90 1.8882 1 3 4 8 48.79 2.05 1.8666 5 1 0 4 49.02 16.02 1.8583 4 1 3 8 49.43 11.93 1.8438 0 1 5 4 49.89 11.25 1.8280 1 5 2 8 50.42 1.95 1.8100 1 1 5 8 50.87 5.98 1.7951 4 3 2 8 51.60 1.80 1.7714 4 2 3 8 52.36 4.10 1.7474 5 2 1 8 52.95 2.52 1.7294 1 2 5 8 53.30 4.38 1.7187 2 1 5 8 53.64 3.06 1.7087 3 5 0 4 54.59 3.83 1.6810 3 5 1 8 54.78 1.53 1.6756 1 5 3 8 54.90 6.00 1.6724 3 4 3 8 55.06 4.55 1.6678 4 0 4 4 55.24 2.90 1.6629 5 2 2 8 55.49 3.47 1.6560 5 3 0 4 55.70 4.77 1.6502 4 3 3 8 55.87 9.56 1.6457 3 3 4 8 56.09 6.45 1.6398 1 6 1 8 56.42 2.61 1.6307 5 3 1 8 56.61 1.73 1.6259 4 4 2 8 56.89 2.32 1.6186 2 4 4 8 56.98 6.12 1.6161 1 3 5 8 57.40 6.51 1.6054 3 5 2 8 57.51 2.00 1.6024 2 5 3 8 57.87 1.94 1.5935 2 6 0 4 57.96 3.15 1.5912 0 6 2 4 58.31 3.35 1.5825 6 0 0 2 58.84 2.53 1.5693 1 6 2 8 59.13 6.49 1.5625 0 0 6 2 59.17 8.85 1.5614 5 3 2 8 59.65 3.46 1.5501 2 3 5 8 59.83 5.82 1.5457 5 2 3 8 59.98 2.33 1.5423 6 1 1 8 60.19 4.62 1.5374 3 2 5 8 61.18 5.67 1.5148 1 5 4 8 61.82 2.49 1.5008 5 4 1 8 61.88 1.23 1.4994 6 0 2 4 62.35 4.95 1.4893 1 4 5 8 62.59 1.01 1.4842 2 0 6 4 62.63 2.61 1.4833 6 1 2 8 63.01 1.35 1.4752 1 2 6 8 63.10 2.57 1.4734 3 6 1 8 63.27 5.15 1.4697 1 6 3 8 63.59 1.00 1.4632 5 3 3 8 63.93 2.18 1.4561 4 1 5 8 64.42 1.27 1.4462 5 4 2 8 64.84 3.16 1.4379 6 2 2 8 65.09 2.40 1.4330 0 7 1 4 65.53 4.62 1.4245 2 2 6 8 65.92 2.48 1.4170 6 3 1 8 65.93 1.67 1.4168 5 2 4 8 66.66 2.30 1.4030 1 3 6 8 66.91 2.81 1.3983 6 1 3 8 67.55 5.20 1.3868 5 5 0 4 67.88 1.19 1.3807 3 5 4 8 68.44 2.22 1.3708 6 3 2 8 68.45 1.45 1.3707 1 7 2 8 68.65 1.56 1.3672 5 4 3 8 68.88 4.64 1.3631 1 5 5 8 68.98 2.39 1.3614 3 4 5 8 69.50 1.93 1.3525 5 3 4 8 69.86 2.19 1.3464 3 6 3 8 69.97 1.47 1.3445 7 1 0 4 70.80 1.03 1.3309 7 1 1 8 70.90 3.35 1.3292 6 4 1 8 71.76 5.81 1.3153 0 7 3 4 72.55 1.42 1.3029 6 3 3 8 72.56 1.76 1.3029 1 7 3 8 73.10 1.69 1.2945 3 3 6 8 73.86 1.24 1.2831 1 2 7 8 74.15 4.27 1.2787 2 1 7 8 74.55 1.33 1.2729 4 4 5 8 74.76 2.68 1.2698 6 2 4 8 75.24 1.97 1.2630 3 5 5 8 75.51 1.56 1.2590 7 3 0 4 76.50 2.04 1.2453 0 3 7 4 76.50 1.46 1.2452 1 6 5 8 77.79 1.50 1.2278 1 5 6 8 77.87 1.31 1.2268 4 7 1 8 77.94 2.97 1.2257 2 8 0 4 78.82 1.17 1.2142 2 6 5 8 79.88 1.70 1.2008 6 1 5 8 80.23 1.05 1.1964 4 7 2 8 80.47 2.95 1.1935 5 5 4 8 81.10 1.47 1.1859 2 8 2 8 81.51 2.35 1.1809 5 4 5 8 81.98 1.14 1.1753 1 4 7 8 82.27 1.91 1.1719 0 0 8 2 82.46 1.45 1.1696 8 1 1 8 82.65 1.30 1.1674 3 6 5 8 82.76 2.91 1.1662 7 1 4 8 83.38 1.18 1.1591 7 4 2 8 83.41 1.44 1.1588 4 1 7 8 83.91 2.39 1.1531 3 5 6 8 84.46 1.08 1.1470 8 2 1 8 85.43 2.43 1.1365 5 3 6 8 87.27 1.92 1.1172 7 4 3 8 87.49 1.07 1.1149 2 7 5 8 87.96 2.18 1.1102 2 2 8 8 88.05 2.34 1.1093 3 4 7 8 89.00 1.23 1.0999 1 3 8 8 89.34 2.94 1.0965 7 5 2 8 89.76 1.64 1.0926 3 1 8 8 89.85 3.03 1.0917 6 4 5 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.