Structures by: Fourcade R.
Total: 25
F5H6N2Sb
F5H6N2Sb
Journal of Solid State Chemistry (1985) 60, 95-100
a=5.627(2)Å b=7.034(2)Å c=12.855(4)Å
α=90.° β=90.° γ=90.°
F10H4NSb3
F10H4NSb3
Revue de Chimie Minerale (1983) 20, 314-320
a=7.925(2)Å b=13.830(4)Å c=8.789(2)Å
α=90° β=95.90(3)° γ=90.°
Cl6Rb2Sb
Cl6Rb2Sb
Revue de Chimie Minerale (1985) 22, 758-766
a=10.140Å b=10.140Å c=10.140Å
α=90° β=90° γ=90°
H6N2,2(Br),2(H2O)
H6N2,2(Br),2(H2O)
Revue de Chimie Minerale (1985) 22, 684-691
a=6.660(2)Å b=7.043(2)Å c=7.857(3)Å
α=90° β=114.30(3)° γ=90°
O3Te,HO,3(Li)
O3Te,HO,3(Li)
Revue de Chimie Minerale' (1983) 20, 129-139
a=6.771(2)Å b=6.309(2)Å c=5.433(2)Å
α=90° β=113.20(1)° γ=90°
K2 (Se O4) (Sb F3)2 (H2 O)
F6H2K2O5Sb2Se
Journal of Solid State Chemistry (1986) 63, 52-61
a=12.374Å b=14.796Å c=5.929Å
α=90° β=90° γ=90°
Rb Sb2 F7
F7RbSb2
Journal of Fluorine Chemistry (1979) 13, 45-53
a=12.588Å b=6.587Å c=8.889Å
α=90° β=102.4° γ=90°
K (Sb F4)
F4KSb
Journal of Fluorine Chemistry (1978) 12, 63-72
a=16.276Å b=11.549Å c=4.543Å
α=90° β=90° γ=90°
Bis(urea) antimony tetrafluoride oxide
C2H8F4N4O3Sb2
Journal of Solid State Chemistry (1981) 36, 214-220
a=19.98(1)Å b=8.152(3)Å c=15.089(7)Å
α=90° β=122.32(3)° γ=90°
Sodium antimony trifluoride nitrate hydrate
F3H2NNaO4Sb
Journal of Fluorine Chemistry (1981) 17, 305-315
a=18.18(1)Å b=11.505(7)Å c=5.660(3)Å
α=90° β=90° γ=90°
Potassium sulfate bis(antimony fluoride)
F6K2O4SSb2
Journal of Solid State Chemistry (1981) 36, 183-189
a=9.225(2)Å b=5.632(1)Å c=19.3790(4)Å
α=90° β=103.14° γ=90°
RUBIDIUM DIFLUOROANTIMONY SULFATE
F2O4RbSSb
Journal of Solid State Chemistry (1982) 43, 81-86
a=9.601(2)Å b=11.510(2)Å c=5.202(1)Å
α=90° β=90° γ=90°
Potassium antimony trifluoride nitrate
F3KNO3Sb
Journal of Fluorine Chemistry (1981) 17, 215-224
a=7.911(2)Å b=7.861(1)Å c=18.092(3)Å
α=90° β=90° γ=90°
Urea antimony(III) fluoride
CH4F3N2OSb
Revue de Chimie Minerale (1979) 16, 151-156
a=8.846(3)Å b=8.378(3)Å c=7.241(3)Å
α=90° β=90° γ=90°
Potassium trifluorobis(nitrato)antimonate(III) nitrate
F3K3N3O9Sb
Journal of Solid State Chemistry (1983) 50, 79-85
a=11.500(5)Å b=13.877(5)Å c=7.236(5)Å
α=90° β=90° γ=90°
Cs Sb Cl F3
ClCsF3Sb
Journal of Fluorine Chemistry (1978) 11, 149-157
a=9.92Å b=9.92Å c=11.606Å
α=90° β=90° γ=90°
Rb Sb Br F3
BrF3RbSb
Revue de Chimie Minerale (1977) 14, 76-82
a=7.72Å b=4.448Å c=8.906Å
α=100.5° β=109.96° γ=103.68°
Na2 S O4 Sb F3
F3Na2O4SSb
Revue de Chimie Minerale (1980) 17, 88-95
a=15.11Å b=7.155Å c=11.05Å
α=90° β=90° γ=90°
(Na (Sb F3))2 (C2 O4)
C2F6Na2O4Sb2
Annales de Chimie (Paris) (1978) 1978, 124-124
a=17.213Å b=6.342Å c=8.168Å
α=90° β=97.7° γ=90°
Na (Sb3 F10)
F10NaSb3
Acta Crystallographica B (24,1968-38,1982) (1975) 31, 2322-2326
a=8.285Å b=8.285Å c=7.6Å
α=90° β=90° γ=120°
Na Sb Br F3 (H2 O)
BrF3H2NaOSb
Acta Crystallographica B (24,1968-38,1982) (1977) 33, 3693-3696
a=8.323Å b=11.365Å c=5.765Å
α=90° β=91.88° γ=90°
K2 S O4 Sb F3
F3K2O4SSb
Journal of the Chemical Society. Dalton Transactions, Inorganic Chemistry (1972-) (1982) 1982, 2313-2316
a=5.601Å b=9.072Å c=14.18Å
α=90° β=90° γ=90°
CF3N2OSb
CF3N2OSb
Revue de Chimie Minerale (1979) 16, 151-156
a=8.846Å b=8.378Å c=7.241Å
α=90° β=90° γ=90°
F3NNaO4Sb
F3NNaO4Sb
Journal of Fluorine Chemistry (1981) 17, 305-315
a=18.18Å b=11.505Å c=5.660Å
α=90° β=90° γ=90°
C2F4N4O3Sb2
C2F4N4O3Sb2
Journal of Solid State Chemistry (1981) 36, 214-220
a=19.98Å b=8.152Å c=15.089Å
α=90° β=122.32° γ=90°