Structures by: Ferreira F. F.
Total: 14
Yttria oxide
Y2O3
Journal of Synchrotron Radiation (2005) 13, 1 46-53
a=10.604000(4)Å b=10.604000(4)Å c=10.604000(4)Å
α=90.0° β=90.0° γ=90.0°
Iron oxide
Fe3O4
Journal of Synchrotron Radiation (2005) 13, 1 46-53
a=8.3814(5)Å b=8.3814Å c=8.3814Å
α=90.0° β=90.0° γ=90.0°
?
Ba2FeReO6
Journal of Synchrotron Radiation (2005) 13, 1 46-53
a=8.063327(13)Å b=8.063327Å c=8.063327Å
α=90.0° β=90.0° γ=90.0°
Iron oxide
Fe3O4
Journal of Synchrotron Radiation (2005) 13, 1 46-53
a=8.3985(5)Å b=8.3985Å c=8.3985Å
α=90.0° β=90.0° γ=90.0°
?
Ba2FeReO6
Journal of Synchrotron Radiation (2005) 13, 1 46-53
a=5.68278(2)Å b=5.682775Å c=8.02337(5)Å
α=90.0° β=90.0° γ=90.0°
LASSBio-1774
C18H20N2O6S,H2O
New J. Chem. (2017)
a=28.9007(11)Å b=15.0348(4)Å c=9.1482(2)Å
α=90° β=90° γ=90°
LASSBio-1773
C17H18N2O6S
New J. Chem. (2017)
a=22.71271(79)Å b=10.67672(50)Å c=7.23916(27)Å
α=90° β=90° γ=90°
(7alpha,17beta)-17-ethynyl-17-hydroxy-7-methylestr-4(5)en-3- one
C21H28O2
CrystEngComm (2012) 14, 8 2826
a=6.80704(7)Å b=20.73858(18)Å c=6.44900(6)Å
α=90° β=76.4302(5)° γ=90°
Propylthiouracil
C7H10N2OS
CrystEngComm (2011) 13, 17 5474
a=28.67338(23)Å b=11.152871(61)Å c=10.668212(55)Å
α=90° β=90° γ=90°
LASSBio-1601
C14H18N2O
RSC Adv. (2015)
a=4.7774(3)Å b=10.8468(6)Å c=15.7986(11)Å
α=52.351(5)° β=99.385(5)° γ=99.707(3)°
LASSBio-1289
C14H12N2O3S
CrystEngComm (2015) 17, 1 165
a=14.5118(3)Å b=12.1374(2)Å c=7.54977(11)Å
α=90° β=91.1131(10)° γ=90°
Rifampicin
C43H58N4O12
CrystEngComm (2014) 16, 36 8555
a=25.8844(2)Å b=14.2964(2)Å c=14.2795(2)Å
α=90° β=122.98(1)° γ=90°
Rifampicin
C43H58N4O12
CrystEngComm (2014) 16, 36 8555
a=25.8844(2)Å b=14.2964(2)Å c=14.2795(2)Å
α=90° β=122.98(1)° γ=90°
Crystal_OP18
C14H14N2O3S
ACS Sustainable Chemistry & Engineering (2016) 4, 4 1899
a=11.5414(3)Å b=12.2880(6)Å c=10.9161(5)Å
α=90° β=115.252(2)° γ=90°