Bi Cu2 O6 P
Abraham F, Ketatni M, Mairesse G, Mernari B
European Journal of Solid State and Inorganic Chemistry 31 (1994) 313-323
Crystal structure of a new bismuth copper oxyphosphate: Bi Cu2 P O6
_cod_database_code 1004105
_database_code_amcsd 0012588
CELL PARAMETERS: 11.7760 5.1730 7.7903 90.000 90.000 90.000
SPACE GROUP: Pnma
X-RAY WAVELENGTH: 1.541838
Cell Volume: 474.564
Density (g/cm3): 6.480
MAX. ABS. INTENSITY / VOLUME**2: 118.0100385
RIR: 5.930
RIR based on corundum from Acta Crystallographica A38 (1982) 733-739
2-THETA INTENSITY D-SPACING H K L Multiplicity
13.63 42.92 6.4973 1 0 1 4
15.05 19.03 5.8880 2 0 0 2
18.89 2.82 4.6973 2 0 1 4
20.61 4.42 4.3094 0 1 1 4
21.96 36.00 4.0470 1 1 1 8
22.83 13.82 3.8951 0 0 2 2
22.88 13.26 3.8862 2 1 0 4
24.06 1.63 3.6981 1 0 2 4
25.41 1.33 3.5055 3 0 1 4
27.46 1.67 3.2486 2 0 2 4
29.70 2.70 3.0084 1 1 2 8
30.36 17.25 2.9440 4 0 0 2
30.81 100.00 2.9019 3 1 1 8
32.38 1.69 2.7649 3 0 2 4
32.55 97.99 2.7511 2 1 2 8
34.68 30.09 2.5865 0 2 0 2
35.07 1.54 2.5587 4 1 0 4
35.40 18.38 2.5358 1 0 3 4
36.98 1.25 2.4309 4 1 1 8
37.42 10.30 2.4031 1 2 1 8
37.87 5.02 2.3760 2 0 3 4
38.32 13.76 2.3486 4 0 2 4
38.80 2.00 2.3208 0 1 3 4
39.99 5.88 2.2544 5 0 1 4
41.70 1.24 2.1658 3 0 3 4
41.93 3.29 2.1547 0 2 2 4
42.26 13.64 2.1385 4 1 2 8
43.48 6.29 2.0813 3 2 1 8
46.26 5.60 1.9627 6 0 0 2
46.64 4.45 1.9476 0 0 4 2
46.75 9.91 1.9431 4 2 0 4
48.18 1.41 1.8889 3 2 2 8
48.47 1.87 1.8779 5 1 2 8
49.68 3.83 1.8350 6 1 0 4
50.05 2.18 1.8226 4 1 3 8
50.40 29.40 1.8108 1 2 3 8
50.68 1.78 1.8012 1 1 4 8
52.28 3.13 1.7498 2 2 3 8
52.45 1.37 1.7446 3 0 4 4
52.45 13.87 1.7445 5 0 3 4
52.56 10.26 1.7412 2 1 4 8
52.64 2.35 1.7388 4 2 2 8
53.95 10.93 1.6995 5 2 1 8
55.10 2.99 1.6666 1 3 1 8
55.34 4.22 1.6600 6 1 2 8
55.53 1.02 1.6548 2 3 0 4
55.60 2.48 1.6531 5 1 3 8
56.67 3.28 1.6243 4 0 4 4
58.94 11.67 1.5671 7 1 1 8
59.09 7.32 1.5635 6 2 0 4
59.41 2.56 1.5558 0 2 4 4
59.77 12.57 1.5473 3 3 1 8
60.82 13.54 1.5231 2 3 2 8
61.57 2.16 1.5062 2 0 5 4
62.23 2.32 1.4919 0 1 5 4
62.78 3.06 1.4800 1 1 5 8
64.42 1.40 1.4464 3 2 4 8
64.42 12.55 1.4463 5 2 3 8
64.66 3.69 1.4414 5 1 4 8
66.19 1.18 1.4119 7 0 3 4
67.12 8.69 1.3945 3 1 5 8
67.37 2.67 1.3899 4 3 2 8
68.09 1.20 1.3770 8 0 2 4
68.17 1.30 1.3756 4 2 4 8
68.94 2.71 1.3621 7 1 3 8
70.51 1.02 1.3356 6 1 4 8
70.80 1.05 1.3308 4 1 5 8
70.81 5.00 1.3306 8 1 2 8
72.64 2.09 1.3016 2 2 5 8
72.85 1.67 1.2984 0 0 6 2
73.18 4.47 1.2932 0 4 0 2
73.37 1.64 1.2904 9 0 1 4
75.37 2.87 1.2611 2 3 4 8
77.42 1.08 1.2327 3 0 6 4
77.68 1.21 1.2292 6 3 2 8
78.73 1.07 1.2155 8 2 2 8
80.76 3.98 1.1900 7 3 1 8
81.25 1.55 1.1840 4 4 0 4
81.79 1.29 1.1776 10 0 0 2
83.77 2.50 1.1547 9 2 1 8
84.00 2.50 1.1521 1 4 3 8
84.14 1.12 1.1505 1 3 5 8
84.35 1.13 1.1482 10 1 0 4
84.63 1.38 1.1452 8 1 4 8
85.77 1.57 1.1329 4 4 2 8
85.84 1.41 1.1321 5 3 4 8
86.82 1.18 1.1218 5 4 1 8
87.37 1.96 1.1162 7 1 5 8
87.70 1.62 1.1128 3 2 6 8
87.92 1.50 1.1105 5 1 6 8
88.08 3.60 1.1089 3 3 5 8
89.77 1.21 1.0924 7 3 3 8
================================================================================
XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs
For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.