Al Cl4 Na Wallart F, Lorriaux-Rubbens A, Mairesse G, Barbier P, Wignacourt J Journal of Raman Spectroscopy 9 (1980) 55-61 Etude Structurale du Tetrachloroaluminate de Sodium: Comparaison des Spectres de Diffusion Raman de la Famille des M Al Cl4 (M= Li, Na, K, Rb, Cs, NO, NH4) a l'Etat Solide _cod_database_code 1004059 _database_code_amcsd 0013286 CELL PARAMETERS: 10.3220 9.8860 6.1670 90.000 90.000 90.000 SPACE GROUP: P2_12_12_1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 629.301 Density (g/cm3): 2.024 MAX. ABS. INTENSITY / VOLUME**2: 5.893184116 RIR: 0.948 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 12.40 2.01 7.1396 1 1 0 4 16.75 48.67 5.2941 1 0 1 4 16.95 2.30 5.2324 0 1 1 4 17.18 25.31 5.1610 2 0 0 2 17.95 21.73 4.9430 0 2 0 2 19.02 13.65 4.6670 1 1 1 4 19.40 12.71 4.5751 2 1 0 4 22.46 2.09 3.9579 2 0 1 4 23.06 7.82 3.8570 0 2 1 4 24.22 10.58 3.6744 2 1 1 4 24.64 16.72 3.6130 1 2 1 4 24.94 40.98 3.5698 2 2 0 4 27.45 22.98 3.2495 3 1 0 4 28.43 32.85 3.1392 1 3 0 4 28.90 86.28 3.0895 2 2 1 4 28.96 7.36 3.0835 0 0 2 2 29.73 4.63 3.0047 3 0 1 4 30.25 17.30 2.9545 1 0 2 4 30.36 70.63 2.9436 0 1 2 4 31.11 100.00 2.8748 3 1 1 4 31.61 5.29 2.8308 1 1 2 4 31.99 40.64 2.7976 1 3 1 4 32.23 11.74 2.7774 2 3 0 4 34.28 3.97 2.6162 0 2 2 4 34.76 16.66 2.5805 4 0 0 2 34.95 2.42 2.5675 3 2 1 4 35.10 16.17 2.5570 2 1 2 4 35.39 32.96 2.5360 1 2 2 4 35.45 35.85 2.5325 2 3 1 4 36.35 18.09 2.4715 0 4 0 2 37.42 8.10 2.4036 1 4 0 4 38.58 1.54 2.3335 2 2 2 4 38.91 4.04 2.3144 4 1 1 4 39.23 13.86 2.2963 3 0 2 4 39.39 21.33 2.2875 4 2 0 4 40.27 4.07 2.2395 1 4 1 4 40.32 5.72 2.2367 3 1 2 4 40.47 7.07 2.2291 2 4 0 4 41.03 12.95 2.1998 1 3 2 4 42.13 1.60 2.1447 4 2 1 4 43.15 19.97 2.0963 2 4 1 4 43.45 1.12 2.0825 3 2 2 4 43.87 5.45 2.0637 2 3 2 4 44.60 1.84 2.0317 4 3 0 4 44.85 11.99 2.0208 5 1 0 4 44.96 1.18 2.0161 1 0 3 4 45.94 7.72 1.9754 1 1 3 4 46.82 1.63 1.9404 4 1 2 4 47.09 5.38 1.9297 4 3 1 4 47.34 2.91 1.9203 5 1 1 4 47.74 2.42 1.9049 5 2 0 4 47.99 1.12 1.8957 1 4 2 4 48.31 4.51 1.8840 3 3 2 4 48.34 1.41 1.8828 0 5 1 4 48.55 2.53 1.8751 2 1 3 4 48.78 15.36 1.8668 1 2 3 4 49.19 1.83 1.8522 1 5 1 4 51.29 4.55 1.7814 2 2 3 4 51.68 5.75 1.7688 2 5 1 4 51.81 26.32 1.7647 3 0 3 4 52.29 25.32 1.7495 5 3 0 4 52.69 2.73 1.7372 3 1 3 4 53.25 3.52 1.7203 6 0 0 2 53.27 3.44 1.7198 1 3 3 4 53.44 1.17 1.7145 4 4 1 4 53.45 1.83 1.7143 3 5 0 4 54.05 5.97 1.6965 4 3 2 4 55.18 8.46 1.6644 0 5 2 4 55.27 3.63 1.6620 3 2 3 4 55.45 2.67 1.6571 6 0 1 4 55.62 26.14 1.6523 2 3 3 4 55.65 15.62 1.6517 3 5 1 4 55.79 11.02 1.6477 0 6 0 2 55.96 3.21 1.6432 1 5 2 4 56.29 1.46 1.6343 6 1 1 4 56.56 1.71 1.6271 1 6 0 4 56.81 22.58 1.6206 5 2 2 4 57.93 3.63 1.5918 0 6 1 4 58.68 3.66 1.5732 1 6 1 4 58.83 1.41 1.5696 2 6 0 4 58.84 1.73 1.5695 4 5 0 4 59.14 4.12 1.5622 1 4 3 4 59.41 6.51 1.5557 3 3 3 4 59.87 2.89 1.5448 4 4 2 4 60.31 2.14 1.5346 5 4 1 4 60.56 1.99 1.5290 4 2 3 4 60.73 1.87 1.5250 6 3 0 4 60.81 3.88 1.5233 0 1 4 4 60.88 3.95 1.5216 5 3 2 4 60.91 2.09 1.5210 4 5 1 4 61.53 1.21 1.5070 1 1 4 4 62.54 4.35 1.4853 6 1 2 4 62.76 6.65 1.4804 6 3 1 4 63.17 1.09 1.4718 0 2 4 4 63.82 1.25 1.4584 7 1 0 4 63.89 1.29 1.4571 1 2 4 4 63.91 2.01 1.4567 5 0 3 4 64.08 1.51 1.4532 0 6 2 4 64.50 1.18 1.4447 3 6 1 4 64.79 1.72 1.4390 1 6 2 4 64.87 1.37 1.4374 6 2 2 4 64.93 4.51 1.4362 3 4 3 4 65.35 1.86 1.4279 5 5 0 4 65.80 3.58 1.4193 7 1 1 4 66.19 1.13 1.4120 6 4 0 4 66.20 3.85 1.4116 1 5 3 4 66.33 4.38 1.4092 5 4 2 4 67.31 1.78 1.3911 5 5 1 4 67.71 2.48 1.3839 1 3 4 4 69.37 1.55 1.3548 4 6 1 4 69.78 1.94 1.3478 4 4 3 4 69.89 1.73 1.3460 7 3 0 4 70.32 3.04 1.3387 3 6 2 4 71.25 1.59 1.3235 4 0 4 4 71.51 1.35 1.3193 6 0 3 4 71.57 1.16 1.3184 7 1 2 4 71.98 2.04 1.3118 4 1 4 4 72.25 2.91 1.3077 6 1 3 4 72.32 1.46 1.3065 3 7 0 4 72.89 2.08 1.2977 1 4 4 4 73.14 1.39 1.2940 3 3 4 4 73.76 1.27 1.2846 7 2 2 4 73.80 2.02 1.2840 0 7 2 4 74.19 1.04 1.2781 3 7 1 4 74.43 1.03 1.2747 6 2 3 4 74.46 1.09 1.2742 1 7 2 4 75.01 1.07 1.2662 4 6 2 4 75.81 1.26 1.2549 5 4 3 4 76.27 1.04 1.2484 8 2 0 4 76.33 1.48 1.2475 2 6 3 4 76.34 1.62 1.2475 4 5 3 4 76.44 1.32 1.2460 2 7 2 4 77.76 1.32 1.2282 4 3 4 4 77.94 1.45 1.2257 5 1 4 4 78.11 3.51 1.2236 8 2 1 4 78.70 2.22 1.2158 0 5 4 4 79.60 7.63 1.2043 3 6 3 4 79.68 1.53 1.2034 1 8 1 4 80.07 1.17 1.1984 5 2 4 4 80.09 2.42 1.1982 7 0 3 4 80.25 1.74 1.1962 6 5 2 4 81.41 1.03 1.1820 7 5 0 4 81.62 2.15 1.1796 2 8 1 4 82.57 2.36 1.1684 6 6 1 4 82.80 4.57 1.1658 2 2 5 4 82.96 1.27 1.1639 6 4 3 4 83.21 1.09 1.1611 3 0 5 4 83.22 1.66 1.1609 7 5 1 4 83.91 2.67 1.1531 3 1 5 4 84.12 1.27 1.1507 4 6 3 4 84.37 1.23 1.1480 1 3 5 4 84.84 1.06 1.1429 3 8 1 4 85.10 1.13 1.1400 1 8 2 4 86.01 1.07 1.1303 3 2 5 4 86.30 1.08 1.1272 2 3 5 4 86.55 1.44 1.1246 8 4 1 4 87.53 1.38 1.1145 4 8 0 4 88.48 1.48 1.1050 5 4 4 4 88.72 1.83 1.1026 3 7 3 4 89.00 1.45 1.0998 4 5 4 4 89.25 1.72 1.0974 6 5 3 4 89.89 1.05 1.0913 5 6 3 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.