Structures by: Parvin N.
Total: 40
C27H47CuN3Si3,F6Sb,1.5(C6H6)
C27H47CuN3Si3,F6Sb,1.5(C6H6)
Chemical science (2018) 9, 18 4333-4337
a=14.617(7)Å b=14.759(7)Å c=21.243(10)Å
α=90° β=107.874(10)° γ=90°
C33H42CuF6N2Sb
C33H42CuF6N2Sb
Chemical science (2018) 9, 18 4333-4337
a=13.3555(16)Å b=13.9173(16)Å c=18.181(2)Å
α=90° β=102.245(3)° γ=90°
C40H56Cl2CuF6N2Sb
C40H56Cl2CuF6N2Sb
Chemical science (2018) 9, 18 4333-4337
a=10.506(5)Å b=20.813(9)Å c=20.435(9)Å
α=90° β=104.638(10)° γ=90°
C33H59CuF6N3SbSi3
C33H59CuF6N3SbSi3
Chemical science (2018) 9, 18 4333-4337
a=13.605(4)Å b=14.057(4)Å c=21.790(8)Å
α=90° β=107.833(9)° γ=90°
C27H47AuN3Si3,SbF6
C27H47AuN3Si3,SbF6
Chemical communications (Cambridge, England) (2020) 56, 55 7625-7628
a=11.831(7)Å b=21.434(14)Å c=14.563(10)Å
α=90° β=98.575(18)° γ=90°
C21H39AuClGeN3Si2
C21H39AuClGeN3Si2
Chemical communications (Cambridge, England) (2020) 56, 55 7625-7628
a=8.9235(5)Å b=18.5223(13)Å c=17.8450(12)Å
α=90° β=101.332(2)° γ=90°
C33H42AuF6N2Sb
C33H42AuF6N2Sb
Chemical communications (Cambridge, England) (2020) 56, 55 7625-7628
a=13.4432(9)Å b=14.6762(9)Å c=17.3789(8)Å
α=90° β=100.2060(10)° γ=90°
C55H75CoO4P
C55H75CoO4P
Chemical communications (Cambridge, England) (2020) 56, 55 7625-7628
a=12.132(3)Å b=13.703(5)Å c=17.467(6)Å
α=112.033(7)° β=104.987(7)° γ=92.737(8)°
C29H51AuF6N3SbSi3
C29H51AuF6N3SbSi3
Chemical communications (Cambridge, England) (2020) 56, 55 7625-7628
a=22.214(7)Å b=18.276(6)Å c=18.686(6)Å
α=90° β=93.012(7)° γ=90°
C27H46CoN3OSi3
C27H46CoN3OSi3
Chemical communications (Cambridge, England) (2020) 56, 55 7625-7628
a=9.741(9)Å b=17.157(15)Å c=18.969(15)Å
α=102.473(13)° β=91.56(2)° γ=91.73(2)°
C34H44CuF6N2Sb
C34H44CuF6N2Sb
Chemical communications (Cambridge, England) (2019) 56, 2 273-276
a=24.087(2)Å b=9.1915(9)Å c=19.165(3)Å
α=90° β=124.966(2)° γ=90°
C35H46CuF6N2Sb
C35H46CuF6N2Sb
Chemical communications (Cambridge, England) (2019) 56, 2 273-276
a=18.355(3)Å b=18.334(3)Å c=42.496(6)Å
α=90° β=90° γ=90°
C28H49CuN3Si3,SbF6
C28H49CuN3Si3,SbF6
Chemical communications (Cambridge, England) (2019) 56, 2 273-276
a=11.762(6)Å b=14.725(7)Å c=21.300(9)Å
α=90° β=90° γ=90°
C38H50CuF6N4Sb
C38H50CuF6N4Sb
Chemical communications (Cambridge, England) (2019) 56, 2 273-276
a=13.623(5)Å b=14.768(5)Å c=20.118(7)Å
α=90° β=90° γ=90°
C29H51CuF6N3SbSi3
C29H51CuF6N3SbSi3
Chemical communications (Cambridge, England) (2019) 56, 2 273-276
a=9.226(7)Å b=11.541(9)Å c=18.052(14)Å
α=90° β=98.414(18)° γ=90°
C49H79Cl2CuF6N5SbSi3
C49H79Cl2CuF6N5SbSi3
Chemical communications (Cambridge, England) (2019) 56, 2 273-276
a=21.510(7)Å b=12.624(4)Å c=21.590(7)Å
α=90° β=96.299(9)° γ=90°
C29H46F3N3O1Si3
C29H46F3N3O1Si3
Chem. Commun. (2017)
a=10.152(3)Å b=10.449(3)Å c=30.517(9)Å
α=90° β=90° γ=90°
C28H41F8N3Si3
C28H41F8N3Si3
Chem. Commun. (2017)
a=9.658(2)Å b=9.771(2)Å c=17.351(4)Å
α=99.448(6)° β=91.554(6)° γ=94.467(6)°
C27H41F6N3Si3
C27H41F6N3Si3
Chem. Commun. (2017)
a=14.962(3)Å b=12.796(3)Å c=17.935(4)Å
α=90° β=113.789(5)° γ=90°
C21H25N
C21H25N
Dalton transactions (Cambridge, England : 2003) (2019) 48, 8 2730-2734
a=9.944(14)Å b=12.969(19)Å c=14.91(2)Å
α=90° β=92.99(4)° γ=90°
C68H84N4
C68H84N4
Dalton transactions (Cambridge, England : 2003) (2019) 48, 8 2730-2734
a=13.119(3)Å b=8.223(2)Å c=13.364(3)Å
α=90.00(3)° β=103.93(3)° γ=90.00(3)°
C24H35N
C24H35N
Dalton transactions (Cambridge, England : 2003) (2019) 48, 8 2730-2734
a=12.224(4)Å b=9.583(3)Å c=18.985(7)Å
α=90° β=104.841(10)° γ=90°
C42H82Cl2Cu2N6Si6,C7H8
C42H82Cl2Cu2N6Si6,C7H8
Dalton Trans. (2017)
a=11.0995(16)Å b=16.235(2)Å c=17.997(3)Å
α=84.770(4)° β=72.241(4)° γ=74.247(4)°
C15H23BrN2Sn
C15H23BrN2Sn
Dalton Trans. (2017)
a=6.2709(19)Å b=10.323(3)Å c=13.767(5)Å
α=86.414(9)° β=84.020(8)° γ=85.949(8)°
C49H89Br2Cu2N6Si6
C49H89Br2Cu2N6Si6
Dalton Trans. (2017)
a=11.0391(10)Å b=16.2036(16)Å c=18.0379(16)Å
α=85.486(2)° β=72.999(2)° γ=75.928(2)°
C42H82AgF6N6SbSi6
C42H82AgF6N6SbSi6
Dalton Trans. (2017)
a=14.897(6)Å b=28.235(12)Å c=14.912(7)Å
α=90° β=92.587(11)° γ=90°
C42H79.5AgF6N6SbSi4Sn2
C42H79.5AgF6N6SbSi4Sn2
Dalton Trans. (2017)
a=15.748(3)Å b=19.935(4)Å c=20.701(4)Å
α=90.00(3)° β=107.03(3)° γ=90.00(3)°
C21H41AuClN3Si3
C21H41AuClN3Si3
Organometallics (2015) 34, 22 5401
a=8.904(3)Å b=18.360(7)Å c=17.794(7)Å
α=90° β=101.464(9)° γ=90°
C44H82Ag2F6N6O6S2Si6
C44H82Ag2F6N6O6S2Si6
Organometallics (2015) 34, 22 5401
a=9.455(3)Å b=39.412(11)Å c=17.344(5)Å
α=90° β=104.283(7)° γ=90°
C25H46AgN4O3Si3
C25H46AgN4O3Si3
Organometallics (2015) 34, 22 5401
a=20.681(3)Å b=9.0586(13)Å c=18.489(3)Å
α=90° β=110.715(3)° γ=90°
C42H82Cu2I2N6Si6,C7H8
C42H82Cu2I2N6Si6,C7H8
Organometallics (2015) 34, 22 5401
a=34.742(5)Å b=11.2775(15)Å c=31.977(3)Å
α=90° β=90.370(6)° γ=90°
C76H56N2S,C7H8
C76H56N2S,C7H8
Inorganic chemistry (2017) 56, 3 1706-1712
a=12.601(6)Å b=15.542(7)Å c=16.027(7)Å
α=74.564(10)° β=70.050(10)° γ=81.531(11)°
C76H64BrCuN2S
C76H64BrCuN2S
Inorganic chemistry (2017) 56, 3 1706-1712
a=20.9505(9)Å b=12.6441(6)Å c=24.9325(10)Å
α=90° β=99.889(3)° γ=90°
C21H41N3SSi3
C21H41N3SSi3
Inorganic chemistry (2017) 56, 3 1706-1712
a=18.757(5)Å b=8.662(2)Å c=17.853(5)Å
α=90° β=114.688(7)° γ=90°
C21H41N3SeSi3
C21H41N3SeSi3
Inorganic chemistry (2017) 56, 3 1706-1712
a=13.8646(18)Å b=13.9873(17)Å c=13.9873(17)Å
α=89.90° β=81.020(2)° γ=81.020(2)°
C69H56BrCuN2Se,C7H8
C69H56BrCuN2Se,C7H8
Inorganic chemistry (2017) 56, 3 1706-1712
a=21.191(12)Å b=12.807(7)Å c=25.044(14)Å
α=90° β=99.715(10)° γ=90°
C21H41ClCuN3SSi3
C21H41ClCuN3SSi3
Inorganic chemistry (2017) 56, 3 1706-1712
a=17.7574(18)Å b=16.0785(17)Å c=19.521(2)Å
α=90° β=90° γ=90°
C21H41ClCuN3SeSi3
C21H41ClCuN3SeSi3
Inorganic chemistry (2017) 56, 3 1706-1712
a=17.993(2)Å b=15.7923(16)Å c=19.676(2)Å
α=90° β=90° γ=90°
C21H41BrCuN3SeSi3
C21H41BrCuN3SeSi3
Inorganic chemistry (2017) 56, 3 1706-1712
a=18.1256(19)Å b=15.6375(16)Å c=19.893(2)Å
α=90° β=90° γ=90°
C21H41BrCuN3SSi3
C21H41BrCuN3SSi3
Inorganic chemistry (2017) 56, 3 1706-1712
a=19.1905(6)Å b=9.1326(3)Å c=18.2543(6)Å
α=90° β=92.758(2)° γ=90°