Structures by: Zanazzi P. F.
Total: 208
Tetra-ferri-annite
Al0.04Cs0.89Fe3.92O12Si3.04
American Mineralogist (1999) 84, 325-332
a=5.486Å b=9.506Å c=10.818Å
α=90° β=99.67° γ=90°
Tetra-ferri-annite
Al0.04Cs0.89Fe3.92O12Si3.04
American Mineralogist (1999) 84, 325-332
a=5.444Å b=9.439Å c=10.185Å
α=90° β=100.2° γ=90°
Tetra-ferri-annite
Al0.04Cs0.89Fe3.92O12Si3.04
American Mineralogist (1999) 84, 325-332
a=5.480Å b=9.498Å c=10.820Å
α=90° β=99.76° γ=90°
Tetra-ferri-annite
Al0.04Cs0.89Fe3.92O12Si3.04
American Mineralogist (1999) 84, 325-332
a=5.480Å b=9.500Å c=10.907Å
α=90° β=99.60° γ=90°
Tetra-ferri-annite
Al0.04Cs0.89Fe3.92O12Si3.04
American Mineralogist (1999) 84, 325-332
a=5.476Å b=9.502Å c=10.954Å
α=90° β=99.54° γ=90°
Tetra-ferri-annite
Al0.04Cs0.89Fe3.92O12Si3.04
American Mineralogist (1999) 84, 325-332
a=5.452Å b=9.448Å c=10.786Å
α=90° β=99.77° γ=90°
Lizardite
H4Mg3O9Si2
American Mineralogist (1987) 72, 943-948
a=5.318Å b=5.318Å c=14.541Å
α=90° β=90° γ=120°
Switzerite
H7Mn3O15P2
American Mineralogist (1986) 71, 1224-1228
a=8.528Å b=13.166Å c=11.812Å
α=90° β=110.05° γ=90°
Ferricopiapite
Fe4.69H42O46S6
American Mineralogist (1973) 58, 314-322
a=7.390Å b=18.213Å c=7.290Å
α=93.67° β=102.05° γ=99.27°
Montgomeryite
Al2Ca2H18Mg0.5O20P3
American Mineralogist (1976) 61, 12-14
a=10.004Å b=24.083Å c=6.235Å
α=90° β=91.60° γ=90°
Serpierite
CaCu2.64H12O17S2Zn1.36
Acta Crystallographica, Section B (1968) 24, 1214-1221
a=22.186Å b=6.250Å c=21.853Å
α=90° β=113.36° γ=90°
Fairfieldite
Ca2H4MnO10P2
Acta Crystallographica, Section B (1970) 26, 640-645
a=5.79Å b=6.57Å c=5.51Å
α=102.27° β=108.67° γ=90.30°
Devilline
CaCu4H12O17S2
Acta Crystallographica, Section B (1972) 28, 1182-1189
a=20.870Å b=6.135Å c=22.191Å
α=90° β=102.73° γ=90°
Tarbuttite
HO5PZn2
Zeitschrift fur Kristallographie (1966) 123, 321-329
a=5.499Å b=5.654Å c=6.465Å
α=102.85° β=102.77° γ=86.83°
Fornacite
As0.925CrCuHO9P0.075Pb2
Zeitschrift fur Kristallographie (1967) 124, 385-397
a=8.101Å b=5.893Å c=17.547Å
α=90° β=110.00° γ=90°
Vauquelinite
CrCuHO9PPb2
Zeitschrift fur Kristallographie (1968) 126, 433-443
a=13.754Å b=5.806Å c=9.563Å
α=90° β=94.57° γ=90°
Beryl
Al1.311Be2.859Cs0.012Fe0.366Li0.027Mg0.328Na0.406O18Si6.111
American Mineralogist (1988) 73, 826-837
a=9.2736Å b=9.2736Å c=9.1910Å
α=90° β=90° γ=120°
Beryl
Al1.574Be2.916Fe0.3Li0.027Mg0.176Na0.425O18Si6.027
American Mineralogist (1988) 73, 826-837
a=9.2666Å b=9.2666Å c=9.1874Å
α=90° β=90° γ=120°
Beryl
Al1.493Be2.943Fe0.174Li0.018Mg0.34Na0.443O18Si6.036
American Mineralogist (1988) 73, 826-837
a=9.2676Å b=9.2676Å c=9.1945Å
α=90° β=90° γ=120°
Beryl
Al1.758Be2.898Fe0.064H0.9Li0.015Mg0.258Na0.243O18.9Si6.009
American Mineralogist (1988) 73, 826-837
a=9.2367Å b=9.2367Å c=9.1903Å
α=90° β=90° γ=120°
Beryl
Al1.721Be2.94Cs0.013Fe0.172K0.026Li0.012Mg0.024Mn0.05Na0.053O18Rb0.003Si6.045Ti0.038
American Mineralogist (1988) 73, 826-837
a=9.2364Å b=9.2364Å c=9.1933Å
α=90° β=90° γ=120°
Beryl
Al1.92Be2.964Cs0.015Fe0.082Li0.015Mn0.014Na0.061O18Rb0.002Si6.006
American Mineralogist (1988) 73, 826-837
a=9.2242Å b=9.2242Å c=9.1934Å
α=90° β=90° γ=120°
Beryl
Al1.917Be2.937Fe0.092Li0.03Na0.067O18Si6.024
American Mineralogist (1988) 73, 826-837
a=9.2202Å b=9.2202Å c=9.1960Å
α=90° β=90° γ=120°
Beryl
Al1.979Be2.985Fe0.024Li0.006Na0.026O18Si6.003
American Mineralogist (1988) 73, 826-837
a=9.2097Å b=9.2097Å c=9.1943Å
α=90° β=90° γ=120°
Beryl
Al1.925Be2.979Fe0.018Li0.018Mg0.06Na0.091O18Si6
American Mineralogist (1988) 73, 826-837
a=9.2176Å b=9.2176Å c=9.1968Å
α=90° β=90° γ=120°
Beryl
Al2.009Be2.595Cs0.131Li0.393Na0.239O18Rb0.002Si6.003
American Mineralogist (1988) 73, 826-837
a=9.2155Å b=9.2155Å c=9.2291Å
α=90° β=90° γ=120°
Beryl
Al2Be2.475Cs0.154Li0.498Na0.228O18Rb0.002Si6.042
American Mineralogist (1988) 73, 826-837
a=9.2148Å b=9.2148Å c=9.2318Å
α=90° β=90° γ=120°
Beryl
Al2.015Be2.496Cs0.15Li0.468Na0.261O18Rb0.001Si6.021
American Mineralogist (1988) 73, 826-837
a=9.2097Å b=9.2097Å c=9.2337Å
α=90° β=90° γ=120°
Beryl
Al2.02Be2.97Fe0.04Na0.047O18Si5.97
American Mineralogist (1988) 73, 826-837
a=9.2077Å b=9.2077Å c=9.1953Å
α=90° β=90° γ=120°
Beryl
Al2.008Be2.97Cr0.052Na0.024O18Si5.97
American Mineralogist (1988) 73, 826-837
a=9.2051Å b=9.2051Å c=9.1953Å
α=90° β=90° γ=120°
Staurolite
Al4.87Fe1.72Li0.06Mg0.21Mn0.02O12Si1.88Zn0.02
American Mineralogist (2002) 87, 1164-1171
a=7.886Å b=16.659Å c=5.671Å
α=90° β=90° γ=90°
Staurolite
Al4.87Fe1.72Li0.06Mg0.21Mn0.02O12Si1.88Zn0.02
American Mineralogist (2002) 87, 1164-1171
a=7.848Å b=16.580Å c=5.641Å
α=90° β=90° γ=90°
Staurolite
Al4.87Fe1.72Li0.06Mg0.21Mn0.02O12Si1.88Zn0.02
American Mineralogist (2002) 87, 1164-1171
a=7.820Å b=16.510Å c=5.626Å
α=90° β=90° γ=90°
Staurolite
Al4.87Fe1.72Li0.06Mg0.21Mn0.02O12Si1.88Zn0.02
American Mineralogist (2002) 87, 1164-1171
a=7.814Å b=16.480Å c=5.617Å
α=90° β=90° γ=90°
Staurolite
Al4.87Fe1.72Li0.06Mg0.21Mn0.02O12Si1.88Zn0.02
American Mineralogist (2002) 87, 1164-1171
a=7.792Å b=16.465Å c=5.599Å
α=90° β=90° γ=90°
Edingtonite
Al1.96Ba0.91H8O13.32Si3.04
American Mineralogist (2004) 89, 633-639
a=9.5909Å b=9.5909Å c=6.5339Å
α=90° β=90° γ=90°
Edingtonite
Al1.96Ba0.94H8O13.54Si3.04
American Mineralogist (2004) 89, 633-639
a=9.5909Å b=9.5909Å c=6.5339Å
α=90° β=90° γ=90°
Edingtonite
Al1.96Ba0.89H7.68O13.32Si3.04
American Mineralogist (2004) 89, 633-639
a=9.3466Å b=9.3466Å c=6.42705Å
α=90° β=90° γ=90°
Edingtonite
Al1.96Ba0.88H8O13.32Si3.04
American Mineralogist (2004) 89, 633-639
a=9.4669Å b=9.4669Å c=6.4765Å
α=90° β=90° γ=90°
Phlogopite
Al1.28Ba0.03F0.18Fe0.82H1.72K0.91Mg2.18Na0.02O11.82Si2.72
American Mineralogist (2004) 89, 647-653
a=5.337Å b=9.240Å c=10.237Å
α=90° β=100.02° γ=90°
Phlogopite
Al1.28Ba0.03F0.18Fe0.82H1.72K0.91Mg2.18Na0.02O11.82Si2.72
American Mineralogist (2004) 89, 647-653
a=5.318Å b=9.210Å c=10.10Å
α=90° β=100.12° γ=90°
Phlogopite
Al1.28Ba0.03F0.18Fe0.82H1.72K0.91Mg2.18Na0.02O11.82Si2.72
American Mineralogist (2004) 89, 647-653
a=5.291Å b=9.160Å c=9.90Å
α=90° β=100.3° γ=90°
Phlogopite
Al1.28Ba0.03F0.18Fe0.82H1.72K0.91Mg2.18Na0.02O11.82Si2.72
American Mineralogist (2004) 89, 647-653
a=5.271Å b=9.130Å c=9.78Å
α=90° β=100.3° γ=90°
Phlogopite
Al1.28Ba0.03F0.18Fe0.82H1.72K0.91Mg2.18Na0.02O11.82Si2.72
American Mineralogist (2004) 89, 647-653
a=5.256Å b=9.105Å c=9.71Å
α=90° β=100.4° γ=90°
Tremolite
Ca2Fe0.05H2Mg4.95O24Si8
European Journal of Mineralogy (1991) 3, 485-499
a=9.840Å b=18.042Å c=5.276Å
α=90° β=104.76° γ=90°
Tremolite
Ca2Fe0.05H2Mg4.95O24Si8
European Journal of Mineralogy (1991) 3, 485-499
a=9.640Å b=17.890Å c=5.228Å
α=90° β=105.1° γ=90°
Glaucophane
Al1.6Fe1.42H2Li0.02Mg1.98Na1.98O24Si8
European Journal of Mineralogy (1991) 3, 485-499
a=9.531Å b=17.759Å c=5.303Å
α=90° β=103.59° γ=90°
Glaucophane
Al1.6Fe1.42H2Li0.02Mg1.98Na1.98O24Si8
European Journal of Mineralogy (1991) 3, 485-499
a=9.422Å b=17.662Å c=5.274Å
α=90° β=103.9° γ=90°
Glaucophane
Al1.6Fe1.42H2Li0.02Mg1.98Na1.98O24Si8
European Journal of Mineralogy (1991) 3, 485-499
a=9.349Å b=17.610Å c=5.257Å
α=90° β=103.9° γ=90°
Pargasite
Al1.68Ca1.98Cr0.18Fe0.21H2K0.02Mg4.26Na0.74O24Si6.62Ti0.07
European Journal of Mineralogy (1991) 3, 485-499
a=9.881Å b=17.998Å c=5.284Å
α=90° β=105.25° γ=90°
Scolecite
Al2CaH6O13Si3
European Journal of Mineralogy (2002) 14, 567-574
a=6.533Å b=19.030Å c=9.830Å
α=90° β=109.95° γ=90°
Scolecite
Al2CaH6O13Si3
European Journal of Mineralogy (2002) 14, 567-574
a=6.471Å b=18.804Å c=9.723Å
α=90° β=109.79° γ=90°
Scolecite
Al2CaH6O13Si3
European Journal of Mineralogy (2002) 14, 567-574
a=6.430Å b=18.631Å c=9.363Å
α=90° β=109.60° γ=90°
Scolecite
Al2CaH6O13Si3
European Journal of Mineralogy (2002) 14, 567-574
a=6.542Å b=18.842Å c=9.863Å
α=90° β=109.89° γ=90°
Bikitaite
AlH2LiO7Si2
European Journal of Mineralogy (2003) 15, 247-255
a=8.607Å b=4.956Å c=7.601Å
α=89.98° β=114.38° γ=89.98°
Bikitaite
AlH2LiO7Si2
European Journal of Mineralogy (2003) 15, 247-255
a=8.543Å b=4.852Å c=7.377Å
α=89.65° β=114.74° γ=90.34°
Bikitaite
AlH2LiO7Si2
European Journal of Mineralogy (2003) 15, 247-255
a=8.605Å b=4.957Å c=7.606Å
α=89.93° β=114.40° γ=89.85°
Magnesiochloritoid
Al2Fe0.35H2Mg0.65O7Si
Physics and Chemistry of Minerals (1992) 18, 483-490
a=9.434Å b=5.452Å c=18.136Å
α=90° β=101.42° γ=90°
Magnesiochloritoid
Al2Fe0.35H2Mg0.65O7Si
Physics and Chemistry of Minerals (1992) 18, 483-490
a=9.434Å b=5.452Å c=18.136Å
α=90° β=101.42° γ=90°
Magnesiochloritoid
Al2Fe0.35H2Mg0.65O7Si
Physics and Chemistry of Minerals (1992) 18, 483-490
a=9.367Å b=5.419Å c=17.96Å
α=90° β=101.4° γ=90°
Muscovite
Al2.8Ba0.01Fe0.08H2K0.9Mg0.04Na0.07O12Si3.04Ti0.04
Physics and Chemistry of Minerals (1995) 22, 170-177
a=5.151Å b=8.931Å c=19.399Å
α=90° β=95.8° γ=90°
Muscovite
Al2.8Fe0.1H2K0.6Mg0.04Na0.37O12Si3.04Ti0.02
Physics and Chemistry of Minerals (1995) 22, 170-177
a=5.130Å b=8.886Å c=19.241Å
α=90° β=95.5° γ=90°
Muscovite
Al2.8Ba0.01Fe0.08H2K0.9Mg0.04Na0.07O12Si3.04Ti0.04
Physics and Chemistry of Minerals (1995) 22, 170-177
a=5.194Å b=9.013Å c=20.064Å
α=90° β=95.8° γ=90°
Paragonite
Al3.07Ba0.01Ca0.01Fe0.01H2K0.07Mg0.02Mn0.001Na0.91O12Si2.92Ti0.005
Physics and Chemistry of Minerals (2000) 27, 377-385
a=5.152Å b=8.941Å c=19.459Å
α=90° β=94.26° γ=90°
Paragonite
Al3.07Ba0.01Ca0.01Fe0.01H2K0.07Mg0.02Mn0.001Na0.91O12Si2.92Ti0.005
Physics and Chemistry of Minerals (2000) 27, 377-385
a=5.140Å b=8.911Å c=19.380Å
α=90° β=94.62° γ=90°
Paragonite
Al3.07Ba0.01Ca0.01Fe0.01H2K0.07Mg0.02Mn0.001Na0.91O12Si2.92Ti0.005
Physics and Chemistry of Minerals (2000) 27, 377-385
a=5.190Å b=9.011Å c=19.603Å
α=90° β=92.96° γ=90°
Paragonite
Al3.07Ba0.01Ca0.01Fe0.01H2K0.07Mg0.02Mn0.001Na0.91O12Si2.92Ti0.005
Physics and Chemistry of Minerals (2000) 27, 377-385
a=5.173Å b=8.985Å c=19.553Å
α=90° β=93.58° γ=90°
Al3NaO11Si3
Al3NaO11Si3
Physics and Chemistry of Minerals (2000) 27, 377-385
a=5.182Å b=9.117Å c=19.550Å
α=90° β=92.70° γ=90°
Fluorapatite
Ca5FO12P3
Physics and Chemistry of Minerals (2001) 28, 219-224
a=9.375Å b=9.375Å c=6.887Å
α=90° β=90° γ=120°
Fluorapatite
Ca5FO12P3
Physics and Chemistry of Minerals (2001) 28, 219-224
a=9.224Å b=9.224Å c=6.805Å
α=90° β=90° γ=120°
Fluorapatite
Ca5FO12P3
Physics and Chemistry of Minerals (2001) 28, 219-224
a=9.268Å b=9.268Å c=6.834Å
α=90° β=90° γ=120°
Mica
Fe4.07H2O12Rb0.99Si2.96
Physics and Chemistry of Minerals (2003) 30, 198-205
a=5.476Å b=9.493Å c=10.514Å
α=90° β=99.95° γ=90°
Mica
Fe4.07H2O12Rb0.99Si2.96
Physics and Chemistry of Minerals (2003) 30, 198-205
a=5.442Å b=9.435Å c=10.185Å
α=90° β=100.3° γ=90°
Mica
Fe4.07H2O12Rb0.99Si2.96
Physics and Chemistry of Minerals (2003) 30, 198-205
a=5.412Å b=9.392Å c=10.120Å
α=90° β=100.2° γ=90°
Mica
Fe4.07H2O12Rb0.99Si2.96
Physics and Chemistry of Minerals (2003) 30, 198-205
a=5.420Å b=9.383Å c=9.846Å
α=90° β=100.8° γ=90°
Mica
Fe4.07H2O12Rb0.99Si2.96
Physics and Chemistry of Minerals (2003) 30, 198-205
a=5.410Å b=9.325Å c=9.645Å
α=90° β=100.7° γ=90°
Arrojadite-(KFe)
AlCaF2Fe14KNa4O48P12
American Mineralogist (1981) 66, 1034-1049
a=24.692Å b=10.031Å c=16.453Å
α=90° β=105.78° γ=90°
Arrojadite-(KFe)
AlCaF2Fe14KNa4O48P12
American Mineralogist (1981) 66, 1034-1049
a=24.730Å b=10.057Å c=16.526Å
α=90° β=105.78° γ=90°
Dickinsonite-(KMnNa)
AlCaF2Fe14KNa4O48P12
American Mineralogist (1981) 66, 1034-1049
a=24.940Å b=10.131Å c=16.722Å
α=90° β=105.60° γ=90°
Lawsonite
Al2CaH4O10Si2
American Mineralogist (1996) 81, 833-841
a=8.797Å b=5.852Å c=13.126Å
α=90° β=90° γ=90°
Lawsonite
Al2CaO10Si2
American Mineralogist (1996) 81, 833-841
a=8.789Å b=5.843Å c=13.127Å
α=90° β=90° γ=90°
Lawsonite
Al2CaO10Si2
American Mineralogist (1996) 81, 833-841
a=8.717Å b=5.805Å c=13.036Å
α=90° β=90° γ=90°
Lawsonite
Al2CaO10Si2
American Mineralogist (1996) 81, 833-841
a=8.852Å b=5.882Å c=13.194Å
α=90° β=90° γ=90°
Lawsonite
Al2CaO10Si2
American Mineralogist (1996) 81, 833-841
a=8.860Å b=5.888Å c=13.201Å
α=90° β=90° γ=90°
Clinozoisite
Al2.79Ca2Fe0.21HO13Si3
American Mineralogist (1997) 82, 61-68
a=8.870Å b=5.592Å c=10.144Å
α=90° β=115.4° γ=90°
Levyne-Ca
Al5.574Ca2H72K0.48Na0.3O61.56Si12.426
American Mineralogist (2005) 90, 645-652
a=13.335Å b=13.335Å c=22.823Å
α=90° β=90° γ=120°
Levyne-Ca
Al5.574Ca2.28H60K0.56Na0.4O60.78Si12.426
American Mineralogist (2005) 90, 645-652
a=13.196Å b=13.196Å c=22.895Å
α=90° β=90° γ=120°
Levyne-Ca
Al5.574Ca2.56H72K0.56Na0.5O66.72Si12.426
American Mineralogist (2005) 90, 645-652
a=13.000Å b=13.000Å c=22.676Å
α=90° β=90° γ=120°
Levyne-Ca
Al5.574Ca2.16H60K0.5Na0.1O61.44Si12.426
American Mineralogist (2005) 90, 645-652
a=13.327Å b=13.327Å c=22.861Å
α=90° β=90° γ=120°
H4Mg3O13Si4
H4Mg3O13Si4
American Mineralogist (2005) 90, 1012-1016
a=5.323Å b=9.203Å c=10.216Å
α=90° β=99.98° γ=90°
Lizardite
Al0.15Fe0.06H4Mg2.82O9Si1.94
European Journal of Mineralogy (1989) 1, 13-19
a=5.313Å b=5.313Å c=7.227Å
α=90° β=90° γ=120°
Lizardite
Al0.22Fe0.15H4Mg2.79O9Si1.84
European Journal of Mineralogy (1989) 1, 13-19
a=5.316Å b=5.316Å c=7.150Å
α=90° β=90° γ=120°
Ellenbergerite
Al3H5Mg3.7O19Si4Ti0.3
European Journal of Mineralogy (1993) 5, 819-829
a=12.2471Å b=12.2471Å c=4.9287Å
α=90° β=90° γ=120°
Ellenbergerite
Al3H5Mg3.7O19Si4Ti0.3
European Journal of Mineralogy (1993) 5, 819-829
a=12.2851Å b=12.2851Å c=4.9505Å
α=90° β=90° γ=120°
Ellenbergerite
Al3H5Mg3.7O19Si4Ti0.3
European Journal of Mineralogy (1993) 5, 819-829
a=12.3184Å b=12.3184Å c=4.9674Å
α=90° β=90° γ=120°
Ellenbergerite
Al3Fe0.03H5Mg3.49O19P0.02Si3.98Ti0.6Zr0.02
European Journal of Mineralogy (1993) 5, 831-838
a=12.24Å b=12.24Å c=4.925Å
α=90° β=90° γ=120°
Ellenbergerite
Al2.88Fe0.08H5Mg3.89O19P0.33Si3.67Ti0.2Zr0.28
European Journal of Mineralogy (1993) 5, 831-838
a=12.16Å b=12.16Å c=4.882Å
α=90° β=90° γ=120°
Beryl
Al2Be2.682Cs0.083H1.26Li0.318Na0.24O18.61Si6
American Mineralogist (1993) 78, 762-768
a=9.208Å b=9.208Å c=9.197Å
α=90° β=90° γ=120°
Beryl
Al1.97Be3Fe0.03H0.26Na0.016O18.24Si6
American Mineralogist (1993) 78, 762-768
a=9.218Å b=9.218Å c=9.197Å
α=90° β=90° γ=120°
Beryl
Al1.97Be3Fe0.03H0.48O18.48Si6
American Mineralogist (1993) 78, 762-768
a=9.218Å b=9.218Å c=9.197Å
α=90° β=90° γ=120°