Nb3 O15 P3 Rb Borel M, Benabbas A, Rebbah H, Grandin A, Leclaire A, Raveau B European Journal of Solid State and Inorganic Chemistry 27 (1990) 525-535 A large family of niobium phosphate bronzes and bronzoids with KNb3P3O15 structure _cod_database_code 1001461 _database_code_amcsd 0012531 CELL PARAMETERS: 13.3520 14.7600 6.4570 90.000 90.000 90.000 SPACE GROUP: Pnnm X-RAY WAVELENGTH: 1.541838 Cell Volume: 1272.517 Density (g/cm3): 3.638 MAX. ABS. INTENSITY / VOLUME**2: 23.03258306 RIR: 2.061 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.26 6.81 6.6760 2 0 0 2 13.71 9.24 6.4590 1 2 0 4 14.98 2.38 5.9157 0 1 1 4 15.24 32.91 5.8130 1 0 1 4 16.39 20.92 5.4086 1 1 1 8 17.92 1.43 4.9509 2 2 0 4 19.23 17.43 4.6166 1 3 0 4 19.44 15.03 4.5665 1 2 1 8 20.05 18.57 4.4275 2 1 1 8 20.85 15.63 4.2612 3 1 0 4 22.45 17.75 3.9606 2 3 0 4 22.72 26.85 3.9134 0 3 1 4 23.34 51.74 3.8112 3 2 0 4 24.12 3.09 3.6900 0 4 0 2 24.29 26.46 3.6645 3 0 1 4 25.04 24.75 3.5567 1 4 0 4 25.04 2.78 3.5565 3 1 1 8 26.40 29.42 3.3761 2 3 1 8 27.01 33.44 3.3006 3 3 0 4 27.17 15.62 3.2821 3 2 1 8 27.39 10.46 3.2558 4 1 0 4 27.62 38.75 3.2295 2 4 0 4 27.63 100.00 3.2285 0 0 2 2 28.65 2.34 3.1153 1 4 1 8 29.37 10.22 3.0414 4 2 0 4 30.76 26.54 2.9071 4 1 1 8 30.76 1.07 2.9065 2 0 2 4 30.96 14.34 2.8884 2 4 1 8 30.97 1.29 2.8878 1 2 2 8 31.03 19.17 2.8824 1 5 0 4 32.54 6.35 2.7514 4 2 1 8 33.18 5.86 2.6998 2 5 0 4 34.06 5.34 2.6321 1 5 1 8 34.12 1.13 2.6277 5 1 0 4 34.49 6.54 2.6002 3 4 1 8 34.87 1.39 2.5733 3 1 2 8 35.89 4.04 2.5024 2 3 2 8 36.29 1.04 2.4754 4 4 0 4 36.47 12.51 2.4634 3 2 2 8 36.53 2.19 2.4601 3 5 0 4 36.93 11.07 2.4339 5 1 1 8 37.16 1.02 2.4193 1 6 0 4 37.63 5.90 2.3905 1 4 2 8 38.35 2.71 2.3470 5 3 0 4 38.47 2.27 2.3403 5 2 1 8 39.02 2.62 2.3083 2 6 0 4 39.03 10.62 2.3080 3 3 2 8 39.47 10.29 2.2833 2 4 2 8 39.79 2.94 2.2655 1 6 1 8 40.54 2.65 2.2253 6 0 0 2 40.76 1.44 2.2138 4 2 2 8 40.91 2.02 2.2058 5 3 1 8 42.02 5.93 2.1502 1 5 2 8 42.54 7.98 2.1249 1 0 3 4 43.01 3.73 2.1032 1 1 3 8 43.25 1.21 2.0920 4 5 1 8 43.45 1.89 2.0828 6 1 1 8 43.45 1.70 2.0828 1 7 0 4 43.71 1.36 2.0711 2 5 2 8 44.15 1.72 2.0513 5 4 1 8 44.36 1.83 2.0419 1 2 3 8 44.45 1.36 2.0380 5 1 2 8 44.66 2.73 2.0291 2 1 3 8 44.69 9.83 2.0276 6 3 0 4 45.09 7.41 2.0107 2 7 0 4 45.82 1.46 1.9803 5 5 0 4 46.03 7.05 1.9719 0 3 3 4 46.56 1.03 1.9507 1 3 3 8 46.89 5.33 1.9377 3 0 3 4 46.97 2.51 1.9344 6 3 1 8 47.32 2.06 1.9212 3 1 3 8 47.73 5.05 1.9056 6 4 0 4 47.73 5.29 1.9055 3 7 0 4 47.92 2.21 1.8984 5 3 2 8 48.10 6.91 1.8917 7 1 0 4 48.11 2.47 1.8911 2 3 3 8 48.48 2.08 1.8777 2 6 2 8 48.58 1.78 1.8741 3 2 3 8 49.40 1.74 1.8450 0 8 0 2 49.76 1.99 1.8322 6 0 2 4 49.85 1.08 1.8293 7 0 1 4 49.90 2.11 1.8277 6 4 1 8 49.90 5.37 1.8276 1 8 0 4 49.90 4.06 1.8276 3 7 1 8 50.44 3.77 1.8093 5 6 0 4 50.86 7.71 1.7955 4 1 3 8 50.99 5.25 1.7910 2 4 3 8 51.25 3.20 1.7827 4 7 0 4 51.47 9.06 1.7756 7 2 1 8 52.00 3.59 1.7585 1 8 1 8 52.05 3.86 1.7569 4 2 3 8 52.53 4.41 1.7422 5 6 1 8 53.11 3.22 1.7246 1 5 3 8 53.31 2.77 1.7184 4 7 1 8 53.36 3.85 1.7170 6 3 2 8 53.41 5.86 1.7155 3 4 3 8 53.44 4.68 1.7146 7 3 1 8 53.44 2.86 1.7145 2 8 1 8 53.48 3.60 1.7133 6 5 1 8 53.70 3.96 1.7067 2 7 2 8 53.79 1.23 1.7044 3 8 0 4 55.16 3.91 1.6651 5 1 3 8 55.53 2.02 1.6549 5 7 0 4 55.70 1.15 1.6503 6 6 0 4 55.78 1.05 1.6479 3 8 1 8 56.04 2.84 1.6411 6 4 2 8 56.04 2.41 1.6410 3 7 2 8 56.12 6.20 1.6389 7 4 1 8 56.30 2.72 1.6342 5 2 3 8 56.37 2.61 1.6322 7 1 2 8 56.54 3.60 1.6278 1 9 0 4 57.03 1.26 1.6148 4 8 0 4 57.05 11.20 1.6142 0 0 4 2 57.36 2.95 1.6063 8 1 1 8 57.65 6.95 1.5989 6 6 1 8 57.99 2.96 1.5905 1 8 2 8 58.15 1.82 1.5863 5 3 3 8 58.47 2.07 1.5784 1 9 1 8 58.48 1.48 1.5783 5 6 2 8 58.96 6.45 1.5665 4 8 1 8 59.21 1.95 1.5606 4 7 2 8 59.44 1.72 1.5549 7 5 1 8 60.14 1.61 1.5387 6 1 3 8 60.79 1.29 1.5238 1 3 4 8 61.04 1.32 1.5179 5 8 0 4 62.09 1.04 1.4949 2 3 4 8 62.48 3.05 1.4864 3 2 4 8 63.13 1.40 1.4727 5 7 2 8 63.26 1.78 1.4699 1 4 4 8 64.06 2.63 1.4535 1 9 2 8 64.23 1.89 1.4501 3 3 4 8 64.44 1.91 1.4459 9 0 1 4 64.54 2.96 1.4439 2 4 4 8 65.41 2.96 1.4267 3 7 3 8 65.74 1.26 1.4204 9 3 0 4 66.37 1.61 1.4084 1 5 4 8 66.74 5.48 1.4015 7 2 3 8 66.77 2.32 1.4010 3 10 0 4 67.20 1.90 1.3931 1 8 3 8 67.52 3.76 1.3872 9 3 1 8 67.65 1.77 1.3850 5 6 3 8 67.86 2.22 1.3811 8 6 0 4 68.32 1.23 1.3729 4 7 3 8 68.43 2.70 1.3710 7 3 3 8 68.43 1.96 1.3709 2 8 3 8 68.47 1.34 1.3703 6 5 3 8 70.77 3.48 1.3314 7 4 3 8 71.38 1.63 1.3213 4 10 1 8 71.87 2.80 1.3137 8 1 3 8 72.12 5.50 1.3096 6 6 3 8 72.73 1.22 1.3001 9 3 2 8 72.85 1.29 1.2983 1 9 3 8 73.29 4.67 1.2917 4 8 3 8 73.72 1.59 1.2852 3 10 2 8 74.76 1.62 1.2698 8 6 2 8 75.24 1.69 1.2629 6 3 4 8 75.53 1.62 1.2588 2 7 4 8 77.27 1.13 1.2347 7 6 3 8 77.49 1.47 1.2317 6 4 4 8 77.50 1.26 1.2317 3 7 4 8 77.78 1.16 1.2279 7 1 4 8 79.16 1.37 1.2099 1 8 4 8 80.03 1.36 1.1990 5 11 0 4 80.31 2.64 1.1955 10 5 1 8 81.13 2.76 1.1855 9 3 3 8 81.68 1.72 1.1788 5 11 1 8 84.10 2.62 1.1510 8 9 1 8 84.77 1.35 1.1436 4 10 3 8 86.61 1.46 1.1240 5 11 2 8 88.70 1.07 1.1029 2 13 1 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.