Structures by: Forsyth J. B.
Total: 10
Cu0.5 Ga0.5 Cr2 S4
Cr2Cu0.5Ga0.5S4
Journal of Physics C (1976) 9, 4021-4033
a=9.918Å b=9.918Å c=9.918Å
α=90° β=90° γ=90°
Pr B (Ge O5)
BGeO5Pr
Journal of Physics: Condensed Matter (1998) 10, 9975-9989
a=6.9436Å b=6.9436Å c=6.8688Å
α=90° β=90° γ=120°
Pr B (Ge O5)
BGeO5Pr
Journal of Physics: Condensed Matter (1998) 10, 9975-9989
a=12.0202Å b=12.0202Å c=6.7999Å
α=90° β=90° γ=120°
(N D4)2 V (S O4)2 (D2 O)6
D20N2O14S2V
Australian Journal of Chemistry (1988) 41, 1289-1294
a=9.13Å b=12.32Å c=6.25Å
α=90° β=107° γ=90°
(N D4)2 (V.45 Zn.55) (S O4)2 (D2 O)6
D20N2O14S2V0.45Zn0.55
Australian Journal of Chemistry (1988) 41, 1289-1294
a=9.14Å b=12.32Å c=6.25Å
α=90° β=107° γ=90°
CrD20N2O14S2
CrD20N2O14S2
Acta Crystallographica Section C (1991) 47, 419-421
a=9.488(2)Å b=12.816(4)Å c=6.097(2)Å
α=90.° β=107.11(1)° γ=90.°
Co2Mo3
Co2Mo3
Acta Crystallographica (1,1948-23,1967) (1963) 16, 509-512
a=9.2287Å b=9.2287Å c=4.8269Å
α=90° β=90° γ=90°
Co7Mo6
Co7Mo6
Acta Crystallographica (1,1948-23,1967) (1962) 15, 543-546
a=4.762Å b=4.762Å c=25.615Å
α=90° β=90° γ=120°
Azurite
C2H2Cu3O8
Physics and Chemistry of Minerals (2001) 28, 498-507
a=5.011Å b=5.850Å c=10.353Å
α=90° β=92.41° γ=90°
Dioptase
CuH2O4Si
Physics and Chemistry of Minerals (2002) 29, 430-438
a=8.819Å b=8.819Å c=8.819Å
α=111.7° β=111.7° γ=111.7°