Structures by: Nishimura K.
Total: 47
C41H33N3O2
C41H33N3O2
Materials Chemistry Frontiers (2019) 3, 4 563
a=15.538(4)Å b=13.276(4)Å c=16.390(5)Å
α=90.00° β=101.907(6)° γ=90.00°
3,3',6,6'-Tetra-tert-butyl-1,1',9,9'-bicarbazole
C40H46N2
Chem. Sci. (2015) 6, 7 4160
a=10.7010(2)Å b=27.6694(5)Å c=11.1215(3)Å
α=90.00° β=98.7640(10)° γ=90.00°
Tetrabutyl-tetrahydro-tetramethylbiacridine
C46H58N2
Chem. Sci. (2015) 6, 7 4160
a=13.312(3)Å b=18.813(4)Å c=15.401(4)Å
α=90.00° β=97.762(5)° γ=90.00°
1.14(I4.39),C6H5I,C40H46N2
1.14(I4.39),C6H5I,C40H46N2
Chem. Sci. (2015) 6, 7 4160
a=15.047(3)Å b=24.399(5)Å c=13.754(3)Å
α=90.00° β=108.90(3)° γ=90.00°
Tetracarbazole
C86H108N4
Chem. Sci. (2015) 6, 7 4160
a=30.6695(11)Å b=12.1512(5)Å c=23.0584(9)Å
α=90.0000° β=119.5715(9)° γ=90.0000°
C28H17N2O4S16
C28H17N2O4S16
Journal of Materials Chemistry (2001) 11, 9 2211
a=7.606(3)Å b=6.773(3)Å c=34.531(2)Å
α=90° β=93.12(1)° γ=90°
1,3,6,8-tetrakis(dimethylamino)pyrene
C24H30N4
Journal of Materials Chemistry (2001) 11, 3 723
a=9.349(2)Å b=12.953(2)Å c=9.294(2)Å
α=105.866(14)° β=98.569(15)° γ=107.584(15)°
C10H8O4S4,C18H10N4
C10H8O4S4,C18H10N4
Journal of Materials Chemistry (2002) 12, 6 1693
a=5.4345(7)Å b=8.718(1)Å c=14.358(1)Å
α=79.531(8)° β=88.090(9)° γ=84.89(1)°
H2TCNDQ
C18H10N4
Journal of Materials Chemistry (2002) 12, 6 1693
a=25.255(5)Å b=7.0840(12)Å c=8.2600(17)Å
α=90.00° β=98.639(13)° γ=90.00°
(EOET)(H2TCNDQ)
C10H8O2S6,C18H10N4
Journal of Materials Chemistry (2002) 12, 6 1693
a=5.4850(5)Å b=9.0560(10)Å c=14.4370(16)Å
α=80.614(6)° β=87.995(6)° γ=84.202(6)°
C14H8S4,0.5(C18H10N4)
C14H8S4,0.5(C18H10N4)
Journal of Materials Chemistry (2002) 12, 6 1693
a=6.650(4)Å b=11.626(2)Å c=14.366(3)Å
α=108.72(1)° β=91.70(3)° γ=105.80(3)°
(3,3,5,5-TMB)(H2TCNDQ)2
C16H20N2,2(C18H10N4)
Journal of Materials Chemistry (2002) 12, 6 1693
a=7.5200(18)Å b=10.638(2)Å c=14.505(3)Å
α=111.515(11)° β=97.681(13)° γ=92.765(10)°
(phenazine)(H2TCNDQ)
C12H8N2,C18H10N4
Journal of Materials Chemistry (2002) 12, 6 1693
a=7.0730(12)Å b=7.3380(9)Å c=12.674(3)Å
α=74.474(11)° β=89.585(10)° γ=65.920(10)°
(H-DAD+)2(TCNDQ2-)
2(C10H17N2),C18H8N4
Journal of Materials Chemistry (2002) 12, 6 1693
a=14.2080(17)Å b=16.706(2)Å c=21.0540(9)Å
α=90.00° β=90.00° γ=90.00°
C60H44N4O10P2
C60H44N4O10P2
Journal of Materials Chemistry (2000) 10, 4 911
a=9.396(2)Å b=10.436(2)Å c=14.038(3)Å
α=113.226(9)° β=96.24(1)° γ=94.51(1)°
C52H36N4O10S32
C52H36N4O10S32
Journal of Materials Chemistry (2000) 10, 4 911
a=8.692(1)Å b=12.936(1)Å c=16.208(2)Å
α=97.376(9)° β=96.234(9)° γ=103.888(9)°
C44H76N6O10
C44H76N6O10
Journal of Materials Chemistry (2000) 10, 4 911
a=42.770(3)Å b=12.4610(17)Å c=19.0250(10)Å
α=90.00° β=107.861(5)° γ=90.00°
(TTN)Mo6Br14(PhCN)3
C18H8S4,Br14Mo6,3(C7H5N1)
Journal of Materials Chemistry (2012) 22, 37 19774
a=12.764(1)Å b=13.0650(9)Å c=17.742(2)Å
α=75.376(5)° β=82.739(5)° γ=86.361(5)°
(HMTTF)2Mo6I14(PhCN)4
2(C12H12S4),I14Mo6,4(C7H5N1)
Journal of Materials Chemistry (2012) 22, 37 19774
a=11.130(3)Å b=14.652(8)Å c=14.653(3)Å
α=116.91(3)° β=108.16(2)° γ=95.13(3)°
(TTC1-TTF)2Mo6Br14
2(C10H12S8),Br14Mo6
Journal of Materials Chemistry (2012) 22, 37 19774
a=9.846(3)Å b=12.408(4)Å c=12.720(4)Å
α=65.76(2)° β=83.01(3)° γ=81.31(3)°
(BO)2Mo6Br14(PhCN)3
2(C10H8O4S4),Br14Mo6,4(C7H5N1)
Journal of Materials Chemistry (2012) 22, 37 19774
a=10.414(4)Å b=21.711(7)Å c=15.958(5)Å
α=90.00° β=93.65(3)° γ=90.00°
(perylene)6Mo6Br14
6(C20H12),1(Br14Mo6)
Journal of Materials Chemistry (2012) 22, 37 19774
a=12.6880(8)Å b=13.9857(9)Å c=14.2334(9)Å
α=89.640(1)° β=83.243(1)° γ=85.746(1)°
C94H70Br14Cl2Cu2Mo6N10
C94H70Br14Cl2Cu2Mo6N10
Journal of Materials Chemistry (2012) 22, 37 19774
a=13.088(4)Å b=13.410(4)Å c=15.620(4)Å
α=94.76(3)° β=116.67(3)° γ=87.57(3)°
C56H68Si4
C56H68Si4
Journal of Organic Chemistry (2005) 70, 9693-9701
a=11.6318(6)Å b=18.6066(8)Å c=13.2326(7)Å
α=90° β=112.289(1)° γ=90°
C56H48Si2
C56H48Si2
Journal of Organic Chemistry (2005) 70, 9693-9701
a=9.747(2)Å b=14.336(4)Å c=15.906(4)Å
α=90° β=102.08(1)° γ=90°
C36H38Zr
C36H38Zr
Organometallics (2011) 30, 13 3544
a=52.948(16)Å b=12.536(4)Å c=8.677(3)Å
α=90.0000° β=90.0000° γ=90.0000°
C26H28
C26H28
Organometallics (2011) 30, 13 3544
a=12.904(12)Å b=5.978(5)Å c=13.979(13)Å
α=90.0000° β=112.655(4)° γ=90.0000°
C34H48N2O10
C34H48N2O10
Journal of the American Chemical Society (2004) 126, 5034-5035
a=8.287(3)Å b=20.037(8)Å c=10.151(4)Å
α=90° β=95.856(6)° γ=90°
C64H60N2O10
C64H60N2O10
Journal of the American Chemical Society (2004) 126, 5034-5035
a=8.337(3)Å b=19.963(7)Å c=15.750(6)Å
α=90° β=102.408(7)° γ=90°
C76H72N2O14
C76H72N2O14
Journal of the American Chemical Society (2004) 126, 5034-5035
a=13.343(2)Å b=13.7657(7)Å c=18.3825(6)Å
α=90° β=111.5078(7)° γ=90°
C76H72N2O14
C76H72N2O14
Journal of the American Chemical Society (2004) 126, 5034-5035
a=11.4515(9)Å b=12.187(1)Å c=12.550(1)Å
α=85.201(3)° β=79.058(2)° γ=69.252(1)°
C67H66N2O11
C67H66N2O11
Journal of the American Chemical Society (2004) 126, 5034-5035
a=8.889(1)Å b=17.022(1)Å c=19.613(3)Å
α=80.493(3)° β=84.133(1)° γ=77.093(1)°
C8H14N4O10U
C8H14N4O10U
Crystal Growth & Design (2008) 8, 7 2364
a=6.099(2)Å b=15.420(5)Å c=7.976(3)Å
α=90.00° β=90.07(3)° γ=90.00°
C14H26N4O10U
C14H26N4O10U
Crystal Growth & Design (2008) 8, 7 2364
a=6.934(2)Å b=9.000(3)Å c=17.630(8)Å
α=89.64(3)° β=83.90(3)° γ=77.43(3)°
C14H26N4O10U
C14H26N4O10U
Crystal Growth & Design (2008) 8, 7 2364
a=9.860(4)Å b=10.474(3)Å c=11.713(4)Å
α=87.60(3)° β=88.11(3)° γ=62.59(3)°
C14H26N4O10U
C14H26N4O10U
Crystal Growth & Design (2008) 8, 7 2364
a=7.089(2)Å b=18.117(5)Å c=8.849(2)Å
α=90.00° β=101.95(3)° γ=90.00°
C14H26N4O10U
C14H26N4O10U
Crystal Growth & Design (2008) 8, 7 2364
a=10.002(4)Å b=11.697(4)Å c=10.870(5)Å
α=90.00° β=61.17(3)° γ=90.00°
C16H30N4O10U
C16H30N4O10U
Crystal Growth & Design (2008) 8, 7 2364
a=7.405(3)Å b=18.100(5)Å c=8.623(3)Å
α=90.00° β=100.97(3)° γ=90.00°
C16H30N4O10U
C16H30N4O10U
Crystal Growth & Design (2008) 8, 7 2364
a=10.284(6)Å b=13.114(6)Å c=17.371(8)Å
α=90.00° β=90.00° γ=90.00°
C16H30N4O10U
C16H30N4O10U
Crystal Growth & Design (2008) 8, 7 2364
a=17.364(6)Å b=7.385(3)Å c=18.031(9)Å
α=90.00° β=90.00° γ=90.00°
C18H34N4O10U
C18H34N4O10U
Crystal Growth & Design (2008) 8, 7 2364
a=10.306(3)Å b=11.891(4)Å c=10.905(3)Å
α=90.00° β=100.04(3)° γ=90.00°
C18H34N4O10U
C18H34N4O10U
Crystal Growth & Design (2008) 8, 7 2364
a=7.438(2)Å b=15.180(6)Å c=11.513(4)Å
α=90.00° β=88.21(3)° γ=90.00°
C18H34N4O10U
C18H34N4O10U
Crystal Growth & Design (2008) 8, 7 2364
a=9.764(3)Å b=10.170(2)Å c=14.481(5)Å
α=100.12(2)° β=98.90(2)° γ=112.86(2)°
C18H34N4O10U
C18H34N4O10U
Crystal Growth & Design (2008) 8, 7 2364
a=7.272(2)Å b=8.988(2)Å c=10.467(3)Å
α=105.60(2)° β=102.702(19)° γ=98.12(2)°
C18H34N4O10U
C18H34N4O10U
Crystal Growth & Design (2008) 8, 7 2364
a=7.001(2)Å b=9.841(3)Å c=10.152(3)Å
α=109.64(2)° β=102.15(2)° γ=98.93(3)°
C20H34N4O10Pu
C20H34N4O10Pu
Crystal Growth & Design (2010) 10, 5 2033
a=7.0236(5)Å b=18.4311(12)Å c=10.5097(7)Å
α=90.00° β=102.255(2)° γ=90.00°
C18H34N4O10Pu
C18H34N4O10Pu
Crystal Growth & Design (2010) 10, 5 2033
a=9.8161(3)Å b=10.3389(3)Å c=14.5174(4)Å
α=100.2040(10)° β=98.4020(10)° γ=112.9790(10)°