Fe Nb Te2 Li J, Badding M, DiSalvo F Inorganic Chemistry 31 (1992) 1050-1054 New layered ternary niobium tellurides: synthesis, structure and properties of NbMTe2 (M=Fe, Co) _cod_database_code 1005004 _database_code_amcsd 0012702 CELL PARAMETERS: 7.9220 7.2390 6.2430 90.000 90.000 90.000 SPACE GROUP: Pmna X-RAY WAVELENGTH: 1.541838 Cell Volume: 358.020 Density (g/cm3): 7.493 MAX. ABS. INTENSITY / VOLUME**2: 132.3851957 RIR: 5.753 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 12.23 62.64 7.2390 0 1 0 2 18.77 2.06 4.7277 0 1 1 4 24.60 8.94 3.6195 0 2 0 2 25.64 2.43 3.4748 2 1 0 4 28.51 9.50 3.1313 0 2 1 4 28.60 18.53 3.1215 0 0 2 2 29.42 100.00 3.0362 2 1 1 8 30.70 1.25 2.9121 1 2 1 8 31.20 14.31 2.8664 0 1 2 4 33.24 2.73 2.6954 1 1 2 8 33.54 9.90 2.6720 2 2 0 4 36.58 14.50 2.4564 2 2 1 8 36.65 5.43 2.4517 2 0 2 4 36.96 7.68 2.4321 3 0 1 4 37.26 4.93 2.4130 0 3 0 2 38.07 48.42 2.3639 0 2 2 4 38.78 28.20 2.3221 2 1 2 8 39.07 10.94 2.3054 3 1 1 8 39.79 3.28 2.2652 1 2 2 8 40.06 6.45 2.2507 0 3 1 4 41.72 2.06 2.1650 1 3 1 8 43.94 29.93 2.0607 2 3 0 4 44.64 1.37 2.0299 2 2 2 8 44.90 4.23 2.0187 3 2 1 8 45.04 2.20 2.0127 1 0 3 4 45.82 18.18 1.9805 4 0 0 2 46.40 19.60 1.9569 2 3 1 8 46.85 2.75 1.9392 1 1 3 8 50.43 1.52 1.8097 0 4 0 2 50.60 5.34 1.8041 0 2 3 4 51.16 26.64 1.7853 2 1 3 8 51.92 1.29 1.7613 3 2 2 8 52.66 8.09 1.7382 0 4 1 4 52.68 4.81 1.7374 4 2 0 4 53.27 4.26 1.7198 2 3 2 8 53.49 1.08 1.7129 3 3 1 8 54.01 1.41 1.6978 1 4 1 8 54.85 2.56 1.6738 4 2 1 8 54.90 8.83 1.6723 4 0 2 4 59.20 5.44 1.5608 0 0 4 2 61.04 11.86 1.5181 4 2 2 8 61.75 1.01 1.5023 5 1 1 8 62.46 2.58 1.4868 4 3 1 8 63.54 3.02 1.4643 2 3 3 8 63.94 6.34 1.4560 2 4 2 8 64.13 1.67 1.4521 2 0 4 4 65.08 1.05 1.4332 0 2 4 4 66.09 1.34 1.4137 5 2 1 8 66.27 2.74 1.4104 0 5 1 4 68.74 2.64 1.3656 0 4 3 4 69.46 1.49 1.3532 3 3 3 8 69.78 1.77 1.3477 2 2 4 8 70.62 3.14 1.3337 4 2 3 8 71.88 1.03 1.3134 0 5 2 4 72.07 2.26 1.3105 0 3 4 4 72.33 5.04 1.3064 4 4 1 8 72.81 1.09 1.2989 6 1 0 4 73.03 1.48 1.2956 5 3 1 8 74.63 4.51 1.2717 6 1 1 8 75.40 1.06 1.2606 5 0 3 4 76.40 6.28 1.2467 2 5 2 8 76.58 5.00 1.2442 2 3 4 8 76.74 1.67 1.2419 5 1 3 8 77.94 2.50 1.2258 4 0 4 4 78.64 1.01 1.2166 6 2 1 8 78.92 1.37 1.2130 3 4 3 8 81.20 1.61 1.1846 0 6 1 4 81.42 1.81 1.1819 0 4 4 4 81.56 1.39 1.1803 0 2 5 4 82.00 5.64 1.1750 2 1 5 8 82.35 1.20 1.1709 5 4 1 8 83.21 2.08 1.1611 4 2 4 8 83.45 1.27 1.1583 6 3 0 4 83.82 2.76 1.1541 2 6 0 4 84.30 2.28 1.1488 4 5 1 8 85.21 2.08 1.1388 6 3 1 8 86.59 2.36 1.1242 4 4 3 8 88.80 3.67 1.1019 6 1 3 8 89.72 1.04 1.0929 4 3 4 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.