Coquimbite Majzlan J, Navrotsky A, McCleskey R B, Alpers C N European Journal of Mineralogy 18 (2006) 175-186 Thermodynamic properties and crystal structure refinement of ferricopiapite, coquimbite, rhomboclase, and Fe2(SO4)3(H2O)5 Locality: synthetic _database_code_amcsd 0007144 CELL PARAMETERS: 10.9153 10.9153 17.0770 90.000 90.000 120.000 SPACE GROUP: P-31c X-RAY WAVELENGTH: 1.541838 Cell Volume: 1762.031 Density (g/cm3): 2.134 MAX. ABS. INTENSITY / VOLUME**2: 10.91728489 RIR: 1.666 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.36 48.35 9.4529 1 0 0 6 10.36 26.20 8.5385 0 0 2 2 10.70 100.00 8.2704 1 0 1 12 13.98 11.65 6.3363 1 0 2 12 16.24 44.42 5.4577 1 1 0 6 18.77 16.29 4.7265 2 0 0 6 19.30 5.38 4.5985 2 -1 2 6 19.30 36.40 4.5985 1 1 2 6 19.49 7.79 4.5552 2 0 1 12 20.81 2.74 4.2692 0 0 4 2 22.86 2.90 3.8908 1 0 4 12 24.48 34.80 3.6364 2 0 3 12 24.92 5.03 3.5729 2 1 0 12 25.47 22.36 3.4971 3 -1 1 12 26.51 43.09 3.3626 1 1 4 6 26.51 8.38 3.3626 2 -1 4 6 27.05 2.63 3.2960 2 1 2 12 27.77 4.77 3.2122 1 0 5 12 28.17 1.23 3.1682 2 0 4 12 28.81 13.93 3.0987 3 0 1 12 29.52 23.45 3.0262 3 -1 3 12 30.23 1.80 2.9561 3 0 2 12 31.43 1.72 2.8462 0 0 6 2 32.34 13.11 2.7683 2 0 5 12 32.48 35.82 2.7568 3 0 3 12 32.68 6.04 2.7400 3 -1 4 12 32.68 5.23 2.7400 2 1 4 12 34.51 1.20 2.5993 4 -2 2 6 34.61 1.23 2.5914 4 -1 1 12 35.41 12.69 2.5352 3 0 4 12 35.57 1.12 2.5236 1 1 6 6 35.57 3.57 2.5236 2 -1 6 6 35.83 1.58 2.5063 3 1 2 12 36.39 1.53 2.4688 3 -1 5 12 37.78 2.63 2.3813 4 -1 3 12 37.78 2.72 2.3813 3 1 3 12 38.08 2.66 2.3632 4 0 0 6 38.46 1.09 2.3409 4 0 1 12 38.89 3.76 2.3159 3 0 5 12 39.18 7.75 2.2993 4 -2 4 6 41.65 1.47 2.1687 3 2 0 12 42.00 1.08 2.1514 3 2 1 12 43.03 1.07 2.1019 5 -2 2 12 43.52 3.75 2.0797 4 -1 5 12 43.89 2.57 2.0628 4 1 0 12 44.23 1.35 2.0479 5 -1 1 12 45.00 2.24 2.0147 3 -1 7 12 45.22 1.36 2.0051 5 -1 2 12 46.08 5.72 1.9697 4 -2 6 6 46.69 1.96 1.9454 2 0 8 12 46.84 6.49 1.9394 4 1 3 12 48.96 1.40 1.8603 1 0 9 12 49.05 8.55 1.8574 5 -1 4 12 49.05 3.06 1.8574 4 1 4 12 50.14 3.98 1.8192 3 3 0 6 51.35 2.82 1.7793 6 -3 2 6 51.35 2.21 1.7793 3 3 2 6 51.43 1.15 1.7767 4 2 1 12 51.73 4.45 1.7673 3 0 8 12 51.77 1.23 1.7657 5 -1 5 12 51.77 4.15 1.7657 4 1 5 12 52.97 2.06 1.7287 5 0 4 12 53.09 1.91 1.7250 5 -2 6 12 54.01 1.09 1.6978 5 1 0 12 54.02 1.42 1.6974 4 0 7 12 54.58 7.89 1.6813 2 2 8 6 54.58 1.76 1.6813 4 -2 8 6 54.78 1.07 1.6758 3 -1 9 12 54.98 1.01 1.6703 5 -1 6 12 54.98 1.75 1.6703 4 1 6 12 55.16 1.00 1.6652 5 1 2 12 56.80 1.43 1.6208 3 2 7 12 58.60 1.90 1.5752 5 -1 7 12 61.23 1.85 1.5137 5 2 0 12 62.29 1.96 1.4904 7 -2 2 12 62.63 2.58 1.4834 5 -1 8 12 62.63 2.25 1.4834 4 1 8 12 62.88 1.53 1.4781 6 0 4 12 65.42 1.16 1.4267 5 2 4 12 67.01 1.08 1.3965 4 1 9 12 67.67 1.25 1.3846 6 -3 8 6 68.09 1.19 1.3770 1 1 12 6 68.81 1.02 1.3644 4 4 0 6 69.81 1.53 1.3473 4 4 2 6 72.76 1.17 1.2997 4 4 4 6 72.94 1.20 1.2969 3 0 12 12 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.