Structures by: Koch-Muller M.
Total: 26
H6MgO6Si
H6MgO6Si
American Mineralogist (2012) 97, 1043-1048
a=5.1131Å b=5.1898Å c=7.3303Å
α=90° β=90.03° γ=90°
Guyanaite
CrH2O2
European Journal of Mineralogy (2012) 24, 839-850
a=4.8623Å b=4.2972Å c=2.9567Å
α=90° β=90° γ=90°
H6MgO6Si
H6MgO6Si
American Mineralogist (2012) 97, 1043-1048
a=5.173Å b=5.210Å c=7.371Å
α=90° β=89.88° γ=90°
Guyanaite
CrH2O2
European Journal of Mineralogy (2012) 24, 839-850
a=4.8691Å b=4.3184Å c=2.9594Å
α=90° β=90° γ=90°
Guyanaite
CrHO2
European Journal of Mineralogy (2012) 24, 839-850
a=4.8623Å b=4.2972Å c=2.9567Å
α=90° β=90° γ=90°
H6MgO6Si
H6MgO6Si
American Mineralogist (2012) 97, 1043-1048
a=5.148Å b=5.252Å c=7.404Å
α=90° β=89.88° γ=90°
H6MgO6Si
H6MgO6Si
American Mineralogist (2012) 97, 1043-1048
a=4.976Å b=5.023Å c=7.115Å
α=90° β=89.89° γ=90°
Al2Co3O12Si3
Al2Co3O12Si3
American Mineralogist (2007) 92, 1616-1623
a=11.4586Å b=11.4586Å c=11.4586Å
α=90° β=90° γ=90°
Al2Co3O12Si3
Al2Co3O12Si3
American Mineralogist (2007) 92, 1616-1623
a=11.4264Å b=11.4264Å c=11.4264Å
α=90° β=90° γ=90°
Al2Co3O12Si3
Al2Co3O12Si3
American Mineralogist (2007) 92, 1616-1623
a=11.3956Å b=11.3956Å c=11.3956Å
α=90° β=90° γ=90°
Al2Co3O12Si3
Al2Co3O12Si3
American Mineralogist (2007) 92, 1616-1623
a=11.4063Å b=11.4063Å c=11.4063Å
α=90° β=90° γ=90°
Al2Co3O12Si3
Al2Co3O12Si3
American Mineralogist (2007) 92, 1616-1623
a=11.3660Å b=11.3660Å c=11.3660Å
α=90° β=90° γ=90°
Al2Co3O12Si3
Al2Co3O12Si3
American Mineralogist (2007) 92, 1616-1623
a=11.3692Å b=11.3692Å c=11.3692Å
α=90° β=90° γ=90°
Al2Co3O12Si3
Al2Co3O12Si3
American Mineralogist (2007) 92, 1616-1623
a=11.3351Å b=11.3351Å c=11.3351Å
α=90° β=90° γ=90°
Al2Co3O12Si3
Al2Co3O12Si3
American Mineralogist (2007) 92, 1616-1623
a=11.3262Å b=11.3262Å c=11.3262Å
α=90° β=90° γ=90°
Al2Co3O12Si3
Al2Co3O12Si3
American Mineralogist (2007) 92, 1616-1623
a=11.3255Å b=11.3255Å c=11.3255Å
α=90° β=90° γ=90°
Al2Co3O12Si3
Al2Co3O12Si3
American Mineralogist (2007) 92, 1616-1623
a=11.3200Å b=11.3200Å c=11.3200Å
α=90° β=90° γ=90°
H6MgO6Si
H6MgO6Si
American Mineralogist (2012) 97, 1043-1048
a=4.958Å b=5.056Å c=7.140Å
α=90° β=89.87° γ=90°
Chloritoid
Al3.983Fe1.038H4Mg0.97O14Si2
European Journal of Mineralogy (2000) 12, 293-314
a=9.467Å b=5.466Å c=9.140Å
α=96.67° β=101.04° γ=90.0°
Chloritoid
Al3.985Fe0.875H4Mg1.12O14Si2
European Journal of Mineralogy (2000) 12, 293-314
a=9.451Å b=5.4674Å c=18.159Å
α=90° β=101.4° γ=90°
Chloritoid
Al3.844Fe0.857H4Mg0.598Mn0.701O14Si2
Physics and Chemistry of Minerals (2000) 27, 703-712
a=5.4744Å b=5.4766Å c=9.1505Å
α=83.53° β=76.68° γ=60.06°
Superhydrous Phase B
H4Mg10O18Si3
Physics and Chemistry of Minerals (2005) 32, 349-361
a=14.024Å b=5.109Å c=8.733Å
α=90° β=90° γ=90°
Superhydrous Phase B (deuterated)
D3.2H0.8Mg8.2Ni1.8O18Si3
Physics and Chemistry of Minerals (2005) 32, 349-361
a=13.991Å b=5.097Å c=8.715Å
α=90° β=90° γ=90°
Staurolite
Al2.29Fe0.455O6Si0.95
European Journal of Mineralogy (1998) 10, 453-460
a=7.8783Å b=16.6172Å c=5.6591Å
α=90° β=90° γ=90°
Staurolite
Al4.39Mg0.9O12Si1.96
European Journal of Mineralogy (1998) 10, 453-460
a=7.8791Å b=16.5425Å c=5.6329Å
α=90° β=90° γ=90°
Staurolite
Al2.305Fe0.44O6Si0.95
European Journal of Mineralogy (1998) 10, 453-460
a=7.8719Å b=16.6231Å c=5.6583Å
α=90° β=90° γ=90°