Cs2 H7 O10 P Te Averbuch-Pouchot M, Durif A, Guitel J Materials Research Bulletin 15 (1980) 387-395 Crystal structures of two cesium phosphate-tellurates: (Te(O H)6) (Cs2 H P O4) and (Te(O H)6) (Cs2 H P O4) (Cs H2 P O4)2 _cod_database_code 1007139 _database_code_amcsd 0014282 CELL PARAMETERS: 8.2040 18.4160 6.9950 90.000 89.890 90.000 SPACE GROUP: P2_1/n X-RAY WAVELENGTH: 1.541838 Cell Volume: 1056.837 Density (g/cm3): 3.672 MAX. ABS. INTENSITY / VOLUME**2: 46.17416595 RIR: 4.094 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 11.81 1.18 7.4940 1 1 0 4 14.46 1.94 6.1254 1 2 0 4 15.91 23.02 5.5700 0 2 1 4 16.64 1.39 5.3279 1 0 1 2 16.67 1.53 5.3178 -1 0 1 2 17.33 2.26 5.1180 1 1 1 4 17.36 1.46 5.1091 -1 1 1 4 19.25 2.99 4.6116 1 2 1 4 21.66 9.16 4.1020 2 0 0 2 22.09 15.31 4.0237 1 3 1 4 22.12 19.09 4.0194 -1 3 1 4 22.14 4.17 4.0150 1 4 0 4 23.13 100.00 3.8457 0 4 1 4 23.75 26.59 3.7470 2 2 0 4 25.47 48.69 3.4975 0 0 2 2 25.57 1.23 3.4836 1 4 1 4 25.61 13.75 3.4777 2 1 1 4 25.66 15.93 3.4721 -2 1 1 4 26.13 10.37 3.4106 2 3 0 4 26.53 6.06 3.3601 1 5 0 4 26.97 33.77 3.3054 2 2 1 4 27.01 30.17 3.3006 -2 2 1 4 28.18 1.39 3.1672 -1 1 2 4 29.09 3.44 3.0693 0 6 0 2 29.16 4.43 3.0627 2 4 0 4 29.39 1.69 3.0391 1 2 2 4 29.48 3.78 3.0297 1 5 1 4 29.50 1.23 3.0279 -1 5 1 4 31.11 1.89 2.8747 1 6 0 4 31.37 1.48 2.8512 1 3 2 4 31.41 3.17 2.8481 -1 3 2 4 31.84 7.01 2.8107 0 6 1 4 31.88 9.57 2.8071 2 4 1 4 31.92 3.12 2.8041 -2 4 1 4 32.68 13.36 2.7406 2 5 0 4 33.12 8.17 2.7050 3 1 0 4 33.71 6.55 2.6589 -2 0 2 2 33.98 1.53 2.6384 1 4 2 4 34.01 2.45 2.6360 -1 4 2 4 34.20 1.19 2.6215 3 2 0 4 35.07 11.41 2.5590 2 2 2 4 35.13 12.21 2.5545 -2 2 2 4 35.84 9.54 2.5052 1 7 0 4 36.56 6.19 2.4575 2 6 0 4 36.78 2.67 2.4438 2 3 2 4 36.84 1.76 2.4399 -2 3 2 4 37.09 4.90 2.4240 1 5 2 4 38.83 3.69 2.3194 2 6 1 4 38.93 1.19 2.3132 0 1 3 4 39.04 2.68 2.3070 0 6 2 4 39.07 1.55 2.3058 2 4 2 4 39.12 1.75 2.3025 -2 4 2 4 39.13 2.69 2.3020 0 8 0 2 39.88 1.12 2.2603 0 2 3 4 40.50 1.11 2.2275 1 1 3 4 40.61 2.05 2.2216 1 6 2 4 40.64 1.26 2.2201 -1 6 2 4 40.74 2.13 2.2145 2 7 0 4 41.11 1.88 2.1956 3 5 0 4 41.85 4.48 2.1585 2 5 2 4 41.91 4.44 2.1558 -2 5 2 4 42.20 3.24 2.1417 3 1 2 4 42.28 2.26 2.1378 -3 1 2 4 42.79 1.90 2.1132 1 8 1 4 42.81 1.22 2.1126 -1 8 1 4 42.91 1.61 2.1076 1 3 3 4 42.95 5.25 2.1057 -1 3 3 4 43.17 4.86 2.0958 3 5 1 4 43.21 5.55 2.0939 -3 5 1 4 43.51 12.68 2.0801 0 4 3 4 44.44 1.36 2.0384 4 1 0 4 44.47 6.67 2.0372 1 7 2 4 44.50 5.17 2.0361 -1 7 2 4 44.95 1.39 2.0165 2 1 3 4 45.03 3.40 2.0133 -2 1 3 4 45.06 5.64 2.0119 2 6 2 4 45.11 2.07 2.0097 -2 6 2 4 45.30 2.41 2.0019 4 2 0 4 45.80 7.73 1.9812 2 2 3 4 45.87 7.19 1.9781 -2 2 3 4 46.58 1.01 1.9498 -3 4 2 4 47.11 1.77 1.9291 -2 8 1 4 47.20 3.69 1.9256 4 2 1 4 47.25 4.55 1.9237 -4 2 1 4 47.27 2.22 1.9229 0 8 2 4 47.60 5.96 1.9102 1 9 1 4 47.62 4.24 1.9097 -1 9 1 4 47.99 2.22 1.8959 3 7 0 4 48.55 1.93 1.8751 4 3 1 4 48.60 1.31 1.8735 4 4 0 4 48.60 3.07 1.8733 -4 3 1 4 48.95 2.15 1.8609 3 5 2 4 49.14 2.90 1.8539 -2 4 3 4 49.49 1.22 1.8416 0 10 0 2 49.81 2.48 1.8305 3 7 1 4 50.45 1.03 1.8089 -4 4 1 4 51.56 1.06 1.7726 -3 0 3 2 51.59 2.45 1.7717 2 9 1 4 51.61 1.82 1.7710 -2 9 1 4 51.62 1.42 1.7707 4 0 2 2 51.71 1.29 1.7677 -4 0 2 2 51.87 1.51 1.7626 4 1 2 4 51.97 1.79 1.7597 -4 1 2 4 52.32 5.07 1.7487 0 0 4 2 52.64 2.37 1.7389 4 2 2 4 52.73 2.43 1.7360 -4 2 2 4 53.75 2.04 1.7053 4 6 0 4 54.19 2.17 1.6925 2 6 3 4 55.07 2.28 1.6677 3 7 2 4 55.13 1.09 1.6659 -3 7 2 4 55.44 1.06 1.6574 4 6 1 4 55.48 1.66 1.6562 -4 6 1 4 56.14 1.71 1.6383 3 9 0 4 56.47 1.57 1.6295 0 10 2 4 56.93 1.93 1.6175 4 7 0 4 57.31 1.34 1.6075 -2 0 4 2 57.62 1.45 1.5997 3 5 3 4 57.72 2.20 1.5972 -3 5 3 4 57.72 3.14 1.5972 1 11 1 4 57.73 2.47 1.5969 -1 11 1 4 57.78 2.21 1.5956 3 9 1 4 57.82 1.65 1.5948 -3 9 1 4 58.18 2.66 1.5857 2 2 4 4 58.26 1.56 1.5836 -2 2 4 4 59.62 1.00 1.5507 -1 5 4 4 60.31 1.14 1.5347 0 12 0 2 60.35 1.34 1.5338 4 6 2 4 60.43 1.65 1.5318 -4 6 2 4 60.94 2.09 1.5203 4 2 3 4 60.98 1.15 1.5194 0 6 4 4 61.06 2.47 1.5175 -4 2 3 4 61.31 2.38 1.5120 1 9 3 4 61.34 3.08 1.5113 -1 9 3 4 62.08 2.09 1.4950 4 3 3 4 62.21 1.34 1.4924 -4 3 3 4 62.64 1.24 1.4830 -3 9 2 4 63.10 1.08 1.4733 -2 5 4 4 63.31 1.20 1.4690 4 7 2 4 63.39 1.59 1.4673 -4 7 2 4 64.39 1.54 1.4470 5 6 0 4 65.02 1.60 1.4343 1 7 4 4 65.06 3.23 1.4335 -1 7 4 4 65.36 1.68 1.4279 3 11 0 4 65.47 1.23 1.4256 2 6 4 4 65.55 1.02 1.4241 -2 6 4 4 67.04 2.89 1.3960 1 13 0 4 67.23 1.43 1.3925 0 8 4 4 68.64 1.84 1.3673 6 0 0 2 69.94 1.01 1.3451 -1 3 5 4 70.16 1.42 1.3414 -1 11 3 4 70.33 3.48 1.3386 0 4 5 4 70.47 1.30 1.3363 -5 6 2 4 71.32 1.40 1.3224 3 11 2 4 71.38 1.51 1.3215 -3 11 2 4 71.73 1.24 1.3158 -4 2 4 4 72.01 2.20 1.3114 2 2 5 4 72.96 1.34 1.2966 1 13 2 4 72.98 2.43 1.2964 -1 13 2 4 73.48 1.69 1.2888 6 4 1 4 73.54 2.55 1.2879 -6 4 1 4 74.45 1.38 1.2743 6 0 2 2 74.57 1.02 1.2726 -6 0 2 2 79.44 1.10 1.2064 -5 10 1 4 82.79 1.10 1.1658 0 0 6 2 84.78 1.27 1.1435 6 4 3 4 84.79 1.28 1.1434 -1 9 5 4 84.95 1.05 1.1417 -6 4 3 4 85.50 1.76 1.1357 0 16 1 4 88.37 1.12 1.1061 3 15 1 4 88.40 1.07 1.1058 -3 15 1 4 89.94 1.20 1.0908 -1 13 4 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.