Yuksporite Diffraction data computed using the structure from the paper listed below, along with the cell parameters refined from the powder pattern for R060818 Krivovichev S V, Yakovenchuk V N, Armbruster T, Dobelin N, Pattison P, Weber H-P, Depmeier W American Mineralogist 89 (2004) 1561-1565 Porous titanosilicate nanorods in the structure of yuksporite, (Sr,Ba)2K4(Ca,Na)14(_,Mn,Fe){(Ti,Nb)4(O,OH)4[Si6O17]2[Si2O7]3}(H2O,OH)n, resolved using synchrotron radiation Sample: Kola peninsula, Russia CELL PARAMETERS: 7.126000 24.91300 17.07500 90.00000 101.8900 90.00000 SPACE GROUP: P2_1/m X-RAY WAVELENGTH: 1.541838 2-THETA INTENSITY D-SPACING H K L 7.10 100.00 12.4618 0 2 0 11.90 18.77 7.4375 0 3 1 12.70 2.24 6.9709 1 0 0 12.69 5.17 6.9750 -1 0 1 13.19 5.12 6.7132 1 1 0 14.22 48.30 6.2309 0 4 0 14.77 1.18 5.9995 1 0 1 17.76 10.60 4.9929 0 4 2 19.20 16.97 4.6229 0 3 3 19.54 2.97 4.5417 -1 2 3 21.14 2.33 4.2014 1 3 2 21.29 6.68 4.1729 0 0 4 21.92 2.43 4.0547 1 5 0 22.44 6.50 3.9614 1 0 3 22.69 3.63 3.9174 -1 1 4 23.92 5.78 3.7188 0 6 2 24.87 3.66 3.5796 -1 3 4 24.94 2.11 3.5690 -1 6 1 25.23 15.97 3.5292 -2 1 1 25.56 9.24 3.4835 1 5 2 25.55 1.56 3.4854 2 0 0 25.53 2.21 3.4875 -2 0 2 25.69 3.18 3.4672 0 4 4 26.55 1.47 3.3566 2 2 0 27.07 4.88 3.2926 -1 0 5 27.21 8.17 3.2762 -2 3 1 27.34 9.07 3.2604 1 1 4 27.44 1.16 3.2488 2 1 1 27.41 1.40 3.2522 -2 1 3 28.02 7.88 3.1833 -1 2 5 28.21 17.68 3.1624 -1 6 3 28.64 5.47 3.1154 0 8 0 28.81 32.33 3.0976 0 3 5 29.14 1.66 3.0630 -1 7 2 29.29 6.45 3.0482 2 3 1 29.26 5.83 3.0510 -2 3 3 29.35 44.16 3.0419 2 4 0 29.34 33.81 3.0432 -2 4 2 29.77 14.07 2.9998 2 0 2 29.78 45.47 2.9990 0 7 3 29.73 15.10 3.0037 -2 0 4 30.62 34.67 2.9187 0 8 2 30.70 1.80 2.9111 -1 4 5 30.82 1.03 2.8998 -2 5 1 31.10 11.43 2.8743 1 7 2 31.44 4.28 2.8446 -1 8 1 32.16 34.85 2.7819 0 0 6 32.26 19.25 2.7737 0 5 5 32.61 4.18 2.7451 1 5 4 32.69 23.62 2.7381 2 5 1 32.67 21.34 2.7402 -2 5 3 32.98 15.37 2.7151 0 2 6 33.13 17.63 2.7028 2 4 2 33.09 14.93 2.7058 -2 4 4 33.26 7.64 2.6928 2 1 3 33.21 8.58 2.6966 -2 1 5 33.55 10.83 2.6700 2 6 0 33.54 9.61 2.6710 -2 6 2 34.13 3.25 2.6255 -1 8 3 34.82 7.78 2.5752 2 3 3 34.77 8.17 2.5786 -2 3 5 34.84 7.81 2.5736 1 9 0 35.22 2.47 2.5471 1 4 5 35.96 1.55 2.4964 0 8 4 36.68 2.30 2.4489 1 8 3 36.89 3.61 2.4353 0 7 5 36.86 2.02 2.4372 -1 5 6 36.94 1.35 2.4319 2 6 2 36.91 1.21 2.4340 -2 6 4 37.20 1.20 2.4158 1 7 4 37.62 1.26 2.3898 2 2 4 37.56 1.04 2.3932 -2 2 6 38.33 3.93 2.3470 -1 10 1 39.67 3.41 2.2707 -1 9 4 39.81 4.41 2.2630 -1 8 5 40.28 1.22 2.2377 3 3 0 41.26 16.51 2.1870 -2 9 1 41.53 1.03 2.1733 1 5 6 41.88 4.56 2.1557 2 7 3 41.84 3.71 2.1577 -2 7 5 41.98 6.03 2.1511 0 5 7 42.21 3.76 2.1398 0 10 4 42.55 1.61 2.1236 1 0 7 42.66 4.05 2.1183 1 9 4 42.67 1.51 2.1177 -1 1 8 42.71 1.11 2.1160 -2 9 3 42.85 1.74 2.1096 1 10 3 43.03 7.87 2.1007 2 6 4 42.99 9.13 2.1030 -2 6 6 43.34 2.07 2.0865 0 0 8 43.28 2.87 2.0892 -1 6 7 43.59 1.88 2.0751 0 8 6 44.31 1.77 2.0433 -3 5 4 44.67 1.28 2.0274 2 10 0 44.66 1.11 2.0278 -2 10 2 44.95 2.20 2.0155 0 12 2 45.11 1.45 2.0087 -2 5 7 45.32 1.17 1.9998 3 0 3 45.35 2.63 1.9986 1 7 6 45.41 1.53 1.9961 -3 1 6 45.54 2.51 1.9906 -1 12 1 45.78 2.19 1.9807 2 0 6 45.77 2.33 1.9812 0 7 7 45.72 2.23 1.9834 -2 0 8 46.04 2.83 1.9703 3 6 1 46.39 1.26 1.9562 2 2 6 46.86 1.07 1.9378 -2 9 5 47.52 3.03 1.9123 -2 11 1 47.72 3.23 1.9047 0 13 1 48.18 12.51 1.8876 2 4 6 48.12 11.18 1.8899 -2 4 8 48.82 1.46 1.8645 0 6 8 49.05 2.00 1.8563 0 10 6 49.17 1.59 1.8517 -3 2 7 49.26 4.37 1.8486 1 13 0 49.97 1.66 1.8242 3 3 4 51.05 6.37 1.7879 2 6 6 50.99 6.06 1.7898 -2 6 8 51.22 29.55 1.7826 -4 0 2 51.78 2.60 1.7646 -4 2 2 51.93 1.09 1.7598 -1 11 6 52.09 1.90 1.7547 1 8 7 52.00 1.29 1.7575 -3 8 5 52.47 1.28 1.7430 3 0 5 52.63 2.17 1.7379 2 11 3 52.60 2.16 1.7389 -2 11 5 52.72 1.24 1.7352 -1 10 7 53.02 1.13 1.7262 -1 13 4 53.06 1.32 1.7250 -1 14 1 53.27 1.48 1.7186 2 9 5 53.22 2.00 1.7201 -2 9 7 53.30 1.08 1.7177 -3 10 1 53.43 1.37 1.7138 -4 4 2 53.64 2.98 1.7076 2 12 2 53.62 2.99 1.7083 -2 12 4 54.15 3.36 1.6927 2 5 7 54.09 3.65 1.6946 -2 5 9 54.30 7.47 1.6885 -2 13 1 54.37 2.91 1.6863 3 9 2 54.38 4.05 1.6860 -1 9 8 54.89 2.43 1.6717 -1 3 10 54.98 1.26 1.6692 0 0 10 55.50 1.97 1.6548 2 13 1 55.48 2.21 1.6552 -2 13 3 55.55 2.63 1.6534 0 15 1 55.86 1.44 1.6449 1 4 9 55.86 2.75 1.6449 0 7 9 56.93 3.02 1.6164 1 10 7 56.85 1.75 1.6186 -3 10 5 57.29 1.04 1.6073 3 6 5 57.33 1.63 1.6061 2 7 7 57.27 2.14 1.6077 -2 7 9 59.58 2.26 1.5507 2 10 6 59.53 2.21 1.5519 -2 10 8 59.73 2.57 1.5472 -4 8 2 59.86 1.58 1.5441 4 3 3 59.78 1.57 1.5459 -4 3 7 60.00 3.55 1.5410 0 9 9 60.39 1.69 1.5318 4 7 1 60.35 1.66 1.5328 -4 7 5 61.40 1.90 1.5090 2 9 7 61.26 1.06 1.5121 -3 1 10 61.34 1.68 1.5103 -2 9 9 61.82 2.00 1.4999 4 0 4 61.74 1.27 1.5015 1 13 6 61.87 2.61 1.4988 4 5 3 61.72 2.73 1.5019 -4 0 8 61.79 2.31 1.5004 -4 5 7 62.08 1.05 1.4941 0 13 7 62.14 1.18 1.4927 0 3 11 62.31 2.94 1.4891 4 2 4 62.23 1.76 1.4908 -3 13 2 62.44 2.91 1.4865 2 3 9 62.22 3.65 1.4911 -4 2 8 62.39 5.05 1.4875 0 15 5 62.36 2.84 1.4881 -2 3 11 62.43 1.14 1.4865 -3 12 5 63.21 1.49 1.4701 3 4 7 63.68 1.81 1.4605 0 17 1 64.11 1.83 1.4516 0 5 11 64.35 1.06 1.4468 4 9 1 64.22 1.31 1.4495 -3 5 10 64.63 1.49 1.4413 -3 8 9 65.52 1.55 1.4238 3 13 2 65.83 1.74 1.4177 0 17 3 66.34 1.00 1.4081 -1 16 5 66.75 1.81 1.4005 3 9 6 66.99 1.36 1.3959 0 7 11 67.20 1.16 1.3921 -2 7 11 67.49 2.68 1.3869 0 10 10 67.61 3.01 1.3846 0 18 0 68.34 1.01 1.3716 4 5 5 68.82 1.89 1.3632 0 15 7 70.25 1.14 1.3391 1 17 4 71.91 1.37 1.3121 2 13 7 71.85 1.61 1.3130 -2 13 9 73.70 1.17 1.2847 -1 4 13 74.68 1.50 1.2701 0 8 12 77.97 1.35 1.2245 -5 8 7 80.50 1.32 1.1923 0 0 14 82.79 1.41 1.1651 4 9 7 82.67 1.08 1.1665 -4 9 11 82.85 1.38 1.1644 -6 4 2 83.28 1.25 1.1595 2 6 12 83.19 1.27 1.1605 -2 6 14 84.80 1.02 1.1425 -4 15 7 86.33 1.69 1.1261 -2 21 1 86.33 1.69 1.1261 -2 21 1 XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.