Nb O5 Ti Tl Rebbah A, Desgardin G, Raveau B Journal of Solid State Chemistry 31 (1980) 321-328 Nonstoichiometric oxides with a layer structure: The compounds A1-x(Ti1-xM1+x)O5 _cod_database_code 1001085 _database_code_amcsd 0013377 CELL PARAMETERS: 6.4560 3.8060 18.8440 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 463.026 Density (g/cm3): 6.098 MAX. ABS. INTENSITY / VOLUME**2: 109.2371565 RIR: 5.833 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.39 19.05 9.4220 0 0 2 2 16.65 6.31 5.3257 1 0 2 4 19.72 5.80 4.5021 1 0 3 4 23.38 54.94 3.8055 1 0 4 4 23.85 13.94 3.7307 0 1 1 4 27.40 56.39 3.2551 0 1 3 4 27.62 11.85 3.2301 1 1 1 8 27.63 56.32 3.2280 2 0 0 2 29.25 9.95 3.0538 2 0 2 4 30.76 100.00 2.9065 1 1 3 8 31.15 2.90 2.8711 2 0 3 4 31.68 61.73 2.8242 1 0 6 4 33.46 1.09 2.6780 0 1 5 4 36.15 2.21 2.4846 1 0 7 4 36.32 19.96 2.4736 1 1 5 8 36.50 5.46 2.4618 2 1 0 4 36.82 18.40 2.4411 2 1 1 8 37.77 1.53 2.3818 2 1 2 8 38.21 3.95 2.3555 0 0 8 2 39.31 21.15 2.2921 2 1 3 8 41.07 9.59 2.1978 0 1 7 4 43.50 10.50 2.0805 1 1 7 8 44.50 7.14 2.0358 3 0 3 4 46.39 12.05 1.9574 3 0 4 4 47.80 19.64 1.9030 0 2 0 2 47.80 4.13 1.9028 2 0 8 4 48.30 8.47 1.8844 0 0 10 2 48.82 1.11 1.8653 0 2 2 4 48.86 4.45 1.8641 3 1 1 8 49.70 11.29 1.8345 0 1 9 4 50.22 9.24 1.8167 2 1 7 8 50.86 17.48 1.7952 3 1 3 8 51.48 11.24 1.7752 3 0 6 4 51.81 8.56 1.7646 1 1 9 8 52.06 1.28 1.7566 2 0 9 4 53.86 10.81 1.7021 1 2 4 8 54.60 1.04 1.6809 3 0 7 4 54.72 2.49 1.6775 3 1 5 8 56.10 13.55 1.6393 2 2 0 4 56.55 8.74 1.6274 2 0 10 4 57.02 2.91 1.6151 2 2 2 8 57.06 4.10 1.6140 4 0 0 2 57.26 5.58 1.6088 3 1 6 8 57.81 12.05 1.5949 2 1 9 8 57.97 1.76 1.5908 4 0 2 4 58.48 19.18 1.5782 1 2 6 8 58.80 2.37 1.5703 0 0 12 2 59.10 1.79 1.5632 4 0 3 4 60.18 4.16 1.5376 3 1 7 8 61.03 5.20 1.5183 1 1 11 8 62.51 3.79 1.4859 4 1 0 4 62.72 2.51 1.4813 4 1 1 8 62.77 1.68 1.4803 0 2 8 4 64.44 4.35 1.4460 4 1 3 8 66.18 2.42 1.4121 2 0 12 4 67.04 1.91 1.3961 3 1 9 8 67.36 3.28 1.3902 3 2 3 8 68.80 6.36 1.3645 3 2 4 8 69.38 1.08 1.3546 0 1 13 4 69.91 2.34 1.3455 2 2 8 8 70.30 4.70 1.3390 0 2 10 4 71.11 5.67 1.3257 1 1 13 8 71.22 1.39 1.3239 2 1 12 8 71.61 2.14 1.3177 1 0 14 4 72.68 4.34 1.3009 4 1 7 8 72.87 7.02 1.2981 3 2 6 8 75.11 1.48 1.2648 5 0 3 4 75.15 1.33 1.2642 3 1 11 8 75.67 1.24 1.2567 4 1 8 8 76.22 1.90 1.2491 2 1 13 8 76.50 1.86 1.2453 5 0 4 4 76.62 2.28 1.2436 0 3 3 4 77.12 6.17 1.2368 2 2 10 8 77.56 2.93 1.2309 4 2 0 4 77.94 2.37 1.2258 4 0 10 4 78.30 5.32 1.2211 1 3 3 8 78.34 1.32 1.2205 4 2 2 8 79.02 2.53 1.2118 4 1 9 8 79.06 1.79 1.2112 0 2 12 4 79.32 1.32 1.2079 4 2 3 8 79.93 1.82 1.2002 5 1 3 8 80.41 1.37 1.1942 5 0 6 4 81.41 1.40 1.1820 1 3 5 8 81.72 1.49 1.1784 2 3 1 8 82.17 3.04 1.1731 1 1 15 8 83.26 2.18 1.1604 2 3 3 8 83.42 1.80 1.1586 1 0 16 4 84.52 3.76 1.1464 3 1 13 8 84.99 1.05 1.1412 3 0 14 4 85.15 2.54 1.1394 5 1 6 8 85.66 2.20 1.1340 2 2 12 8 86.05 1.31 1.1299 1 3 7 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.