Structures by: Tanaka N.
Total: 27
C24BF20,C18H22B
C24BF20,C18H22B
Nature Chemistry (2014) 6, 498-503
a=15.995(3)Å b=15.995(3)Å c=7.7772(12)Å
α=90.0000° β=90.0000° γ=90.0000°
CHB11Cl11,C18H22B
CHB11Cl11,C18H22B
Nature Chemistry (2014) 6, 498-503
a=16.1901(18)Å b=10.0100(11)Å c=21.240(3)Å
α=90.0000° β=101.8220(10)° γ=90.0000°
C40H65N3O5,C6H6O2
C40H65N3O5,C6H6O2
Organic letters (2012) 14, 13 3498-3501
a=27.994(3)Å b=27.994(3)Å c=10.3401(8)Å
α=90.0000° β=90.0000° γ=120.0000°
Al78.2 Si9.7 Cu32.5 Fe16
Al78.2Cu32.5Fe16Si9.7
Journal of Physics: Condensed Matter (2003) 15, 6365-6380
a=12.32108Å b=12.32108Å c=12.32108Å
α=90° β=90° γ=90°
C27H29BrNO6P
C27H29BrNO6P
Chemical science (Royal Society of Chemistry : 2010) (2015) 6, 11 6086-6090
a=10.2391(6)Å b=11.4922(6)Å c=24.9637(12)Å
α=91.3040(13)° β=98.3180(17)° γ=114.9350(14)°
C10H11S,C24BF20
C10H11S,C24BF20
Chem.Commun. (2015) 51, 13342
a=13.4674(1)Å b=13.8265(1)Å c=17.2405(1)Å
α=90° β=94.8693(4)° γ=90°
C10H11S,C24BF20
C10H11S,C24BF20
Chem.Commun. (2015) 51, 13342
a=13.4674(1)Å b=13.8265(1)Å c=17.2405(1)Å
α=90° β=94.8693(4)° γ=90°
C21H33Br4Cl3Cu6N4S8
C21H33Br4Cl3Cu6N4S8
Dalton transactions (Cambridge, England : 2003) (2011) 40, 10 2218-2224
a=15.6452(5)Å b=15.6452(5)Å c=15.9953(6)Å
α=90.0000° β=90.0000° γ=90.0000°
C16H28Br3Cu4N2S4
C16H28Br3Cu4N2S4
Chem.Commun. (2013) 49, 4316
a=7.823(4)Å b=9.518(5)Å c=33.157(16)Å
α=90.0000° β=98.469(7)° γ=90.0000°
CHB11Cl11,C10H11O
CHB11Cl11,C10H11O
Nature Chemistry (2014) 6, 498-503
a=9.2943(13)Å b=10.4680(14)Å c=14.361(2)Å
α=94.5720(16)° β=95.2380(18)° γ=103.7890(15)°
C24H18Br2N4O8S4
C24H18Br2N4O8S4
The Journal of organic chemistry (2018) 83, 23 14797-14801
a=13.885(3)Å b=14.002(3)Å c=14.446(3)Å
α=86.624(4)° β=89.650(5)° γ=87.080(4)°
C16H20NOP
C16H20NOP
Organometallics (2009) 28, 9 2808
a=7.74600(10)Å b=14.1380(3)Å c=14.3620(3)Å
α=90.00° β=102.0030(10)° γ=90.00°
C68H70N2P4Pd2S2
C68H70N2P4Pd2S2
Organometallics (2009) 28, 9 2808
a=22.0780(2)Å b=13.14200(10)Å c=23.3680(3)Å
α=90.00° β=114.20° γ=90.00°
C73H82N2O2P4Pd2
C73H82N2O2P4Pd2
Organometallics (2009) 28, 9 2808
a=12.51000(10)Å b=41.3100(4)Å c=13.53600(10)Å
α=90.00° β=104.3180(10)° γ=90.00°
C43H45Cl3NOP3Pd
C43H45Cl3NOP3Pd
Organometallics (2009) 28, 9 2808
a=10.5830(2)Å b=13.5660(3)Å c=15.2980(3)Å
α=86.772(2)° β=82.503(2)° γ=79.1120(10)°
C71H113N2P4Pd2S2
C71H113N2P4Pd2S2
Organometallics (2009) 28, 9 2808
a=24.12400(10)Å b=24.23800(10)Å c=24.66500(10)Å
α=90.00° β=90.00° γ=90.00°
C68H70N2O4P4Pd2
C68H70N2O4P4Pd2
Organometallics (2009) 28, 9 2808
a=12.9410(5)Å b=13.7460(5)Å c=18.9800(11)Å
α=85.954(2)° β=75.978(2)° γ=65.496(2)°
C16H20NOPS
C16H20NOPS
Organometallics (2009) 28, 9 2808
a=7.7500(2)Å b=14.9400(4)Å c=13.7080(3)Å
α=90.00° β=98.206(2)° γ=90.00°
C21H23NO2
C21H23NO2
Journal of the American Chemical Society (1998) 120, 10379-10390
a=11.1311(13)Å b=12.983(2)Å c=14.162(2)Å
α=67.597(12)° β=88.428(11)° γ=70.483(10)°
C21H22O2
C21H22O2
Journal of the American Chemical Society (1998) 120, 10379-10390
a=10.2756(14)Å b=23.384(4)Å c=7.6671(8)Å
α=90.00° β=111.831(9)° γ=90.00°
C18H26B2F2O4
C18H26B2F2O4
Journal of the American Chemical Society (2017) 139, 7 2728-2733
a=21.544(19)Å b=7.164(6)Å c=12.564(11)Å
α=90° β=98.611(12)° γ=90°
C10H12B2O4
C10H12B2O4
Journal of the American Chemical Society (2017) 139, 7 2728-2733
a=12.799(4)Å b=7.758(3)Å c=10.736(4)Å
α=90° β=108.119(4)° γ=90°
C20H32B2O4
C20H32B2O4
Journal of the American Chemical Society (2017) 139, 7 2728-2733
a=6.5342(7)Å b=14.3432(15)Å c=11.1367(12)Å
α=90° β=95.3720(10)° γ=90°
C18H30Cu3I2N4S4
C18H30Cu3I2N4S4
Inorganic Chemistry (2010) 49, 3700-3702
a=10.50780(10)Å b=8.36100(10)Å c=16.4258(2)Å
α=90.0000° β=106.1456(8)° γ=90.0000°
C18H30Br2Cu3N4S4
C18H30Br2Cu3N4S4
Inorganic Chemistry (2010) 49, 3700-3702
a=10.467(14)Å b=8.278(6)Å c=15.967(15)Å
α=90.0000° β=105.96(4)° γ=90.0000°
C38H58N2P4Pd2S2
C38H58N2P4Pd2S2
Organometallics (2009) 28, 9 2808
a=11.59800(10)Å b=41.1830(3)Å c=17.63500(10)Å
α=90.00° β=90.00° γ=90.00°
C4H24B9N
C4H24B9N
Organometallics (2016) 35, 11 2022
a=6.4166(5)Å b=10.3935(8)Å c=9.5956(7)Å
α=90° β=100.2780(10)° γ=90°