Structures by: Garlaschelli L.
Total: 18
C32H22Cl5Ir6NO15Sn
C32H22Cl5Ir6NO15Sn
Dalton Transactions (2003) 24 4700
a=10.321(1)Å b=15.465(2)Å c=15.482(2)Å
α=85.64(1)° β=81.15(1)° γ=78.11(1)°
C35H20Cl3Ir4O11PSn
C35H20Cl3Ir4O11PSn
Dalton Transactions (2003) 24 4700
a=9.032(1)Å b=36.926(4)Å c=12.169(1)Å
α=90° β=91.83(1)° γ=90°
C88H72Cl6Ir4N2O10P4Sn2
C88H72Cl6Ir4N2O10P4Sn2
Dalton Transactions (2003) 24 4700
a=11.096(1)Å b=15.007(1)Å c=27.976(3)Å
α=104.69(1)° β=93.39(1)° γ=90.39(1)°
C242H184Ir16O36P12
C242H184Ir16O36P12
Dalton transactions (Cambridge, England : 2003) (2010) 39, 5 1188-1190
a=18.8355(18)Å b=14.9833(14)Å c=49.076(5)Å
α=90° β=91.9060(10)° γ=90°
C262H200Ir16O36P12
C262H200Ir16O36P12
Dalton transactions (Cambridge, England : 2003) (2010) 39, 5 1188-1190
a=14.829(4)Å b=18.483(5)Å c=48.910(13)Å
α=91.942(2)° β=91.431(2)° γ=94.306(2)°
C36H30NP2,C8CoFeO8
C36H30NP2,C8CoFeO8
Journal of the American Chemical Society (2002) 124, 14173-14184
a=10.562(1)Å b=12.545(1)Å c=15.190(1)Å
α=95.85(1)° β=91.99(2)° γ=97.57(1)°
Ir6 (C O)16
C16Ir6O16
Journal of the American Chemical Society (1984) 106, 6664-6667
a=13.622Å b=12.807Å c=18.589Å
α=90° β=132.65° γ=90°
Ir6 (C O)16
C16Ir6O16
Journal of the American Chemical Society (1984) 106, 6664-6667
a=16.656Å b=9.761Å c=16.776Å
α=90° β=118.09° γ=90°
C33H36Cl5OP2Rh
C33H36Cl5OP2Rh
Crystal Growth & Design (2008) 8, 3 854
a=9.715(3)Å b=10.638(3)Å c=10.931(3)Å
α=98.241(3)° β=112.615(3)° γ=113.644(3)°
C32H34Cl3OP2Rh
C32H34Cl3OP2Rh
Crystal Growth & Design (2008) 8, 3 854
a=9.684(5)Å b=10.637(5)Å c=17.549(5)Å
α=94.942(5)° β=92.910(5)° γ=113.401(5)°
C62H64Cl2Ir2O2P4
C62H64Cl2Ir2O2P4
Crystal Growth & Design (2008) 8, 3 854
a=9.153(5)Å b=10.376(5)Å c=16.317(5)Å
α=97.680(5)° β=90.057(5)° γ=114.465(5)°
C65H70Cl8O2P4Rh2
C65H70Cl8O2P4Rh2
Crystal Growth & Design (2008) 8, 3 854
a=9.1861(14)Å b=11.6690(18)Å c=16.746(3)Å
α=73.200(3)° β=89.465(3)° γ=77.158(3)°
C18H21Cl1.5OPRh0.5
C18H21Cl1.5OPRh0.5
Crystal Growth & Design (2008) 8, 3 854
a=9.5077(14)Å b=18.833(3)Å c=10.5919(16)Å
α=90.000° β=109.115(3)° γ=90.000°
C92H60Au4O18P4Rh10,2(C16H36N),2(C4H8O)
C92H60Au4O18P4Rh10,2(C16H36N),2(C4H8O)
Inorganic Chemistry (2012) 51, 9171-9180
a=15.675(3)Å b=27.297(5)Å c=17.166(3)Å
α=90° β=113.049(2)° γ=90°
C128H90Au6O18P6Rh10,2(C5H9NO)
C128H90Au6O18P6Rh10,2(C5H9NO)
Inorganic Chemistry (2012) 51, 9171-9180
a=14.7030(18)Å b=15.0640(19)Å c=15.2830(19)Å
α=90.9240(18)° β=97.9550(18)° γ=100.3750(18)°
C110H75Au5O18P5Rh10,C4H12N,C3H8O
C110H75Au5O18P5Rh10,C4H12N,C3H8O
Inorganic Chemistry (2012) 51, 9171-9180
a=14.862(7)Å b=17.390(9)Å c=24.298(12)Å
α=88.542(8)° β=87.651(8)° γ=84.051(8)°
C34H38ClO2P2Rh
C34H38ClO2P2Rh
Crystal Growth & Design (2008) 8, 3 854
a=9.369(2)Å b=11.834(3)Å c=16.531(4)Å
α=74.323(5)° β=88.336(5)° γ=76.061(5)°
C92H60Au8Mo4O20P4
C92H60Au8Mo4O20P4
Inorganic Chemistry (2006) 45, 8465-8467
a=16.910(1)Å b=26.502(3)Å c=21.427(2)Å
α=90° β=91.11(1)° γ=90°