Structures by: Van der Boom M. I.
Total: 34
C38H70Br2P4Pd2
C38H70Br2P4Pd2
Chemistry of Materials (2009) 21, 19 4676
a=9.4541(3)Å b=16.3285(5)Å c=15.0644(5)Å
α=90.00° β=90.2120(10)° γ=90.00°
C13H6ClF4NO
C13H6ClF4NO
Crystal Growth & Design (2015) 15, 10 4756
a=10.0782(3)Å b=12.6478(4)Å c=9.6673(3)Å
α=90° β=108.7840(10)° γ=90°
C13H6ClF4N
C13H6ClF4N
Crystal Growth & Design (2015) 15, 10 4756
a=9.1990(18)Å b=10.765(2)Å c=11.907(2)Å
α=90° β=108.31(3)° γ=90°
C13H6BrF4NO,0.5(H2O)
C13H6BrF4NO,0.5(H2O)
Crystal Growth & Design (2015) 15, 10 4756
a=25.4609(10)Å b=7.0954(3)Å c=15.6162(8)Å
α=90° β=117.609(3)° γ=90°
2(C13H6F4INO),3(H2O)
2(C13H6F4INO),3(H2O)
Crystal Growth & Design (2015) 15, 10 4756
a=16.6858(6)Å b=4.7557(2)Å c=17.1322(6)Å
α=90° β=90.634(2)° γ=90°
C13H6F5N
C13H6F5N
Crystal Growth & Design (2015) 15, 10 4756
a=5.7660(12)Å b=9.0810(18)Å c=10.927(2)Å
α=70.74(3)° β=85.15(3)° γ=81.57(3)°
H2O,2(C13H6F5NO)
H2O,2(C13H6F5NO)
Crystal Growth & Design (2015) 15, 10 4756
a=6.3949(2)Å b=6.3949(2)Å c=57.5399(18)Å
α=90° β=90° γ=90°
C62H52N4NiO2
C62H52N4NiO2
Journal of the American Chemical Society (2020)
a=25.7380(18)Å b=25.7380(18)Å c=17.9031(10)Å
α=90° β=90° γ=120°
C62H52Cl2N4Ni
C62H52Cl2N4Ni
Journal of the American Chemical Society (2020)
a=25.9120(8)Å b=25.9120(8)Å c=17.7714(4)Å
α=90° β=90° γ=120°
C62H52N4
C62H52N4
Journal of the American Chemical Society (2020)
a=13.6468(9)Å b=13.6468(9)Å c=7.0913(4)Å
α=90° β=90° γ=90°
C62H52N4NiO2
C62H52N4NiO2
Journal of the American Chemical Society (2020)
a=25.930(3)Å b=25.930(3)Å c=17.800(4)Å
α=90° β=90° γ=120°
C54H45FeN9,2(F6P)
C54H45FeN9,2(F6P)
Journal of the American Chemical Society (2017) 139, 33 11471-11481
a=15.2797(11)Å b=21.3748(15)Å c=21.7718(15)Å
α=74.223(10)° β=77.054(10)° γ=79.381(11)°
C62H44N4
C62H44N4
Journal of the American Chemical Society (2018) 140, 29 9132-9139
a=26.6512(14)Å b=26.6512(14)Å c=7.0521(5)Å
α=90° β=90° γ=90°
C54H45N9Os,2(F6P),3(C7H8),0.5(C6H6)
C54H45N9Os,2(F6P),3(C7H8),0.5(C6H6)
Journal of the American Chemical Society (2018) 140, 26 8162-8171
a=14.9604(3)Å b=23.8784(5)Å c=24.1527(6)Å
α=90° β=104.537(2)° γ=90°
C54H45F12N9OsP2
C54H45F12N9OsP2
Journal of the American Chemical Society (2018) 140, 26 8162-8171
a=15.2657(3)Å b=21.4783(4)Å c=21.9227(5)Å
α=73.534(2)° β=76.390(2)° γ=80.261(2)°
C13H7F4N
C13H7F4N
Organometallics (2012) 31, 4 1271
a=5.8681(12)Å b=8.9177(18)Å c=10.930(2)Å
α=101.14(3)° β=103.60(3)° γ=100.34(2)°
C25H36BrF4NP2Pd
C25H36BrF4NP2Pd
Organometallics (2012) 31, 4 1271
a=15.967(3)Å b=13.233(3)Å c=13.854(3)Å
α=90.00° β=102.60(3)° γ=90.00°
C25H37F4NP2Pd
C25H37F4NP2Pd
Organometallics (2012) 31, 4 1271
a=8.5023(2)Å b=12.6579(3)Å c=25.8658(5)Å
α=90.00° β=98.7640(10)° γ=90.00°
C25H40BrNP2Pt
C25H40BrNP2Pt
Journal of the American Chemical Society (2005) 127, 26 9322-9323
a=15.884(3)Å b=14.908(3)Å c=11.701(2)Å
α=90.00° β=90.00° γ=90.00°
C25H40BrNP2Pt
C25H40BrNP2Pt
Journal of the American Chemical Society (2005) 127, 26 9322-9323
a=8.4720(17)Å b=31.716(6)Å c=10.229(2)Å
α=90.00° β=95.32(3)° γ=90.00°
C27H21N3,2(C6F3I3)
C27H21N3,2(C6F3I3)
Crystal Growth & Design (2008) 8, 3 786
a=8.8860(2)Å b=15.9228(4)Å c=29.1087(7)Å
α=90.00° β=90.3244(11)° γ=90.00°
C27H21N3,0.5(C6F4I2),CHCl3
C27H21N3,0.5(C6F4I2),CHCl3
Crystal Growth & Design (2008) 8, 3 786
a=18.7990(3)Å b=5.7056(1)Å c=27.4972(4)Å
α=90.00° β=99.1894(8)° γ=90.00°
C13H4BrF4NO
C13H4BrF4NO
Crystal Growth & Design (2008) 8, 8 3066
a=12.09700(10)Å b=4.8330(4)Å c=20.3140(8)Å
α=90.0000(14)° β=98.324(2)° γ=90.000(2)°
C17H13BrF3NO
C17H13BrF3NO
Crystal Growth & Design (2008) 8, 8 3066
a=24.111(5)Å b=12.836(3)Å c=10.303(2)Å
α=90.00° β=100.87(3)° γ=90.00°
C13H6BrF4N
C13H6BrF4N
Crystal Growth & Design (2005) 5, 5 1671
a=9.3770(19)Å b=10.671(2)Å c=11.907(2)Å
α=90.00° β=108.40(3)° γ=90.00°
C62H52Br2N4Ni
C62H52Br2N4Ni
Journal of the American Chemical Society (2020)
a=25.8466(8)Å b=25.8466(8)Å c=18.0005(4)Å
α=90° β=90° γ=120°
C54H45N9Ru,2(F6P)
C54H45N9Ru,2(F6P)
Journal of the American Chemical Society (2018) 140, 26 8162-8171
a=15.2905(2)Å b=21.2936(4)Å c=21.9394(5)Å
α=73.6996(19)° β=77.0624(15)° γ=79.2781(15)°
C13H4BrF4N
C13H4BrF4N
Crystal Growth & Design (2008) 8, 8 3066
a=9.9477(2)Å b=5.1827(1)Å c=11.5038(3)Å
α=90.00° β=109.055(2)° γ=90.00°
C44H76N2P4Pd2
C44H76N2P4Pd2
Organometallics (2015) 34, 6 1098
a=13.4324(6)Å b=14.6205(8)Å c=12.1455(6)Å
α=90.00° β=93.810(2)° γ=90.00°
C44H72F4N2P4Pd2,C7H8
C44H72F4N2P4Pd2,C7H8
Organometallics (2015) 34, 6 1098
a=9.0332(3)Å b=11.0003(4)Å c=14.6167(5)Å
α=79.223(2)° β=77.307(2)° γ=75.198(2)°
C25H36ClF4NP2Pd
C25H36ClF4NP2Pd
Organometallics (2013) 32, 10 3074
a=13.3120(4)Å b=11.0450(6)Å c=38.6140(16)Å
α=90.00° β=90.00° γ=90.00°
4(C25H36F5NP2Pd)
4(C25H36F5NP2Pd)
Organometallics (2013) 32, 10 3074
a=11.8580(5)Å b=16.1553(6)Å c=16.4658(6)Å
α=66.663(2)° β=75.207(2)° γ=79.340(2)°
C23H38BrN3P2Pt
C23H38BrN3P2Pt
Organometallics (2007) 26, 18 4528
a=6.9930(14)Å b=28.041(6)Å c=13.723(3)Å
α=90.00° β=94.46(3)° γ=90.00°
C23H39N3P2Pt
C23H39N3P2Pt
Organometallics (2007) 26, 18 4528
a=18.851(4)Å b=7.9190(16)Å c=8.3420(17)Å
α=90.00° β=90.00° γ=90.00°