Monteneroite Kampf A R, Plasil J, Nash B P, Ciriotti M E, Castellaro F, Chiappino L Mineralogical Magazine 84 (2020) 881-887 Monteneroite, Cu2+Mn2+2(AsO4)2*8H2O, a new vivianite-structure mineral with ordered cations from the Monte Nero mine, Liguria, Italy Locality: Monte Nero mine, Liguria, Italy _database_code_amcsd 0020952 CELL PARAMETERS: 10.3673 13.7130 4.8420 90.000 105.992 90.000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 661.732 Density (g/cm3): 2.974 MAX. ABS. INTENSITY / VOLUME**2: 29.72500007 RIR: 3.254 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.97 22.60 8.0619 1 1 0 4 12.91 100.00 6.8565 0 2 0 2 17.80 4.90 4.9830 2 0 0 2 19.07 1.94 4.6546 0 0 1 2 19.79 20.60 4.4872 -1 1 1 4 21.39 3.98 4.1548 1 3 0 4 22.05 3.17 4.0309 2 2 0 4 22.26 12.40 3.9945 -2 0 1 2 24.11 5.94 3.6905 1 1 1 4 25.81 1.49 3.4515 -2 2 1 4 25.99 3.35 3.4283 0 4 0 2 27.08 36.42 3.2932 -1 3 1 4 27.63 9.24 3.2286 3 1 0 4 29.14 18.73 3.0649 -3 1 1 4 29.65 21.16 3.0126 2 0 1 2 31.68 5.46 2.8244 2 4 0 4 32.43 16.81 2.7603 0 4 1 4 32.46 22.71 2.7581 2 2 1 4 33.34 14.75 2.6873 3 3 0 4 34.48 7.89 2.6015 -2 4 1 4 35.89 14.83 2.5021 -4 0 1 2 37.77 4.29 2.3819 -1 1 2 4 37.88 13.52 2.3750 -1 5 1 4 37.89 1.68 2.3743 -2 0 2 2 38.29 5.09 2.3505 -4 2 1 4 39.43 1.39 2.2855 0 6 0 2 39.83 1.44 2.2630 2 4 1 4 40.19 5.45 2.2436 -2 2 2 4 40.45 2.71 2.2302 1 5 1 4 42.75 8.69 2.1150 3 5 0 4 42.78 3.25 2.1140 1 1 2 4 44.14 1.42 2.0515 0 6 1 4 44.85 2.40 2.0210 -4 4 1 4 45.41 1.10 1.9972 -4 0 2 2 45.52 4.26 1.9927 -3 3 2 4 45.74 1.20 1.9837 -2 6 1 4 46.01 3.68 1.9725 5 1 0 4 46.89 9.28 1.9378 1 3 2 4 47.45 1.58 1.9160 2 0 2 2 48.73 3.29 1.8688 -5 3 1 4 50.10 1.11 1.8208 2 6 1 4 50.39 2.02 1.8110 -1 7 1 4 50.43 1.01 1.8097 3 5 1 4 53.07 2.55 1.7257 -4 4 2 4 53.16 4.77 1.7228 -3 5 2 4 53.45 6.52 1.7141 0 8 0 2 54.39 7.15 1.6869 1 5 2 4 54.90 1.19 1.6725 2 4 2 4 55.31 1.57 1.6610 6 0 0 2 55.32 1.36 1.6608 5 1 1 4 55.55 1.74 1.6543 -5 3 2 4 55.83 1.02 1.6466 -2 6 2 4 56.05 3.33 1.6409 -5 5 1 4 57.05 2.36 1.6143 6 2 0 4 58.60 1.13 1.5752 -2 8 1 4 58.72 3.01 1.5722 -6 0 2 2 58.77 3.23 1.5711 5 3 1 4 59.59 1.71 1.5515 0 0 3 2 60.14 3.06 1.5386 -6 4 1 4 60.41 1.15 1.5325 -6 2 2 4 60.85 1.07 1.5223 -1 7 2 4 61.25 1.24 1.5133 0 2 3 4 61.33 1.64 1.5115 -1 3 3 4 61.57 3.36 1.5063 4 0 2 2 62.05 1.16 1.4957 -3 3 3 4 62.32 3.22 1.4898 2 8 1 4 62.68 1.04 1.4821 -4 2 3 4 63.20 1.41 1.4712 4 2 2 4 63.77 2.20 1.4594 -2 4 3 4 64.49 1.08 1.4448 1 7 2 4 65.33 2.01 1.4283 5 5 1 4 66.07 2.19 1.4141 -4 8 1 4 66.10 1.15 1.4135 0 4 3 4 67.75 1.49 1.3830 -1 5 3 4 68.41 1.82 1.3713 0 10 0 2 68.42 1.50 1.3712 -3 9 1 4 68.43 1.59 1.3709 -3 5 3 4 69.10 1.32 1.3593 7 3 0 4 75.19 1.45 1.2636 7 5 0 4 75.31 1.20 1.2619 7 1 1 4 76.29 1.44 1.2481 2 10 1 4 79.21 1.02 1.2093 -2 0 4 2 83.42 1.20 1.1587 -6 8 2 4 85.90 1.37 1.1315 4 8 2 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.