Structures by: Friedrich A.
Total: 170
C48H50F4N4Ni,C6D6
C48H50F4N4Ni,C6D6
Journal of the American Chemical Society (2016) 138, 16 5250-5253
a=10.652(5)Å b=14.778(5)Å c=14.855(4)Å
α=92.736(19)° β=101.401(13)° γ=91.53(2)°
C21H13N
C21H13N
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=17.0774(15)Å b=3.9635(4)Å c=59.803(6)Å
α=90° β=90.802(7)° γ=90°
C21H13N
C21H13N
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=12.2331(3)Å b=8.2123(2)Å c=14.7327(3)Å
α=90° β=105.7430(10)° γ=90°
C21H13N
C21H13N
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=13.1743(10)Å b=8.2226(6)Å c=13.5000(10)Å
α=90° β=111.313(3)° γ=90°
C21H13N
C21H13N
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=13.194(3)Å b=8.3516(17)Å c=13.506(3)Å
α=90° β=110.722(13)° γ=90°
C21H13N
C21H13N
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=4.623(5)Å b=22.358(5)Å c=13.545(5)Å
α=90.000(5)° β=96.486(5)° γ=90.000(5)°
C13H8N
C13H8N
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=9.3677(2)Å b=8.1391(2)Å c=11.6155(3)Å
α=90° β=99.7660(10)° γ=90°
C13H8N
C13H8N
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=11.0286(6)Å b=5.4670(3)Å c=13.9855(8)Å
α=90° β=91.742(3)° γ=90°
C26H16N2
C26H16N2
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=3.7918(12)Å b=9.006(3)Å c=24.601(11)Å
α=90° β=90.484(19)° γ=90°
C26H16N2
C26H16N2
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=10.979(3)Å b=5.4664(10)Å c=13.966(2)Å
α=90° β=91.652(8)° γ=90°
C13H8N
C13H8N
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=5.589(5)Å b=20.882(5)Å c=7.697(5)Å
α=90.000(5)° β=103.696(5)° γ=90.000(5)°
C13H8N
C13H8N
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=12.530(3)Å b=10.289(2)Å c=13.803(3)Å
α=90° β=104.918(14)° γ=90°
C26H16N2
C26H16N2
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=12.2463(3)Å b=30.2305(9)Å c=9.5734(2)Å
α=90° β=95.933(2)° γ=90°
C26H16N2
C26H16N2
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=12.3050(4)Å b=30.3860(13)Å c=9.6833(3)Å
α=90° β=96.608(3)° γ=90°
C34H32N2
C34H32N2
The Journal of organic chemistry (2020) 85, 6 4256-4266
a=9.6837(10)Å b=12.0970(12)Å c=12.2653(12)Å
α=89.133(6)° β=66.936(5)° γ=75.404(5)°
C36H48B2O4
C36H48B2O4
The Journal of organic chemistry (2018) 83, 7 3599-3606
a=10.873(9)Å b=11.235(8)Å c=13.671(12)Å
α=90° β=105.10(3)° γ=90°
C36H48B2O4,0.5(C2H3N)
C36H48B2O4,0.5(C2H3N)
The Journal of organic chemistry (2018) 83, 7 3599-3606
a=40.616(11)Å b=9.877(3)Å c=17.437(5)Å
α=90° β=94.598(10)° γ=90°
C52H58B2,2(C7H8)
C52H58B2,2(C7H8)
The Journal of organic chemistry (2018) 83, 7 3599-3606
a=14.599(9)Å b=8.435(5)Å c=21.018(13)Å
α=90° β=95.832(11)° γ=90°
C36H35N,0.125(CH2Cl2)
C36H35N,0.125(CH2Cl2)
The Journal of organic chemistry (2018) 83, 7 3599-3606
a=29.379(17)Å b=33.67(2)Å c=11.409(11)Å
α=90° β=90° γ=90°
C22H10F6
C22H10F6
The Journal of organic chemistry (2016) 81, 13 5789-5794
a=21.524(12)Å b=6.136(3)Å c=11.931(8)Å
α=90° β=92.893(19)° γ=90°
C18H41IrNP2,F6P
C18H41IrNP2,F6P
Organometallics (2009) 28, 3 708
a=8.7145(4)Å b=15.9371(5)Å c=18.3834(9)Å
α=90° β=96.488(4)° γ=90°
C17H37IrNOP2,F6P
C17H37IrNOP2,F6P
Organometallics (2009) 28, 3 708
a=8.6581(1)Å b=15.6096(2)Å c=18.5711(2)Å
α=90° β=94.818(1)° γ=90°
C18H40IrNP2
C18H40IrNP2
Organometallics (2009) 28, 3 708
a=8.967(2)Å b=10.632(3)Å c=12.933(4)Å
α=70.12(2)° β=83.63(2)° γ=70.30(2)°
C17H36IrNOP2
C17H36IrNOP2
Organometallics (2009) 28, 3 708
a=7.6119(4)Å b=13.5411(7)Å c=21.8518(12)Å
α=78.202(4)° β=80.638(4)° γ=73.614(4)°
C16H38Cl2IrNP2
C16H38Cl2IrNP2
Organometallics (2009) 28, 3 708
a=11.8102(4)Å b=14.2081(5)Å c=14.5239(4)Å
α=101.423(3)° β=101.801(3)° γ=106.574(3)°
C58H84Li2N2O4Si2,C5H12
C58H84Li2N2O4Si2,C5H12
Journal of the American Chemical Society (2017)
a=16.9073(10)Å b=28.4712(18)Å c=13.7433(8)Å
α=90° β=111.174(2)° γ=90°
C42H52N2Si2,C20H40KO8,2(C4H8O)
C42H52N2Si2,C20H40KO8,2(C4H8O)
Journal of the American Chemical Society (2017)
a=11.360(7)Å b=12.649(8)Å c=14.052(9)Å
α=79.07(3)° β=76.04(2)° γ=64.377(17)°
C42H52N2Si2,2(C16H32KO7)
C42H52N2Si2,2(C16H32KO7)
Journal of the American Chemical Society (2017)
a=15.139(4)Å b=17.386(3)Å c=15.866(4)Å
α=90° β=113.466(8)° γ=90°
C40H50N4Si2,C20H40KO8,C4H8O
C40H50N4Si2,C20H40KO8,C4H8O
Journal of the American Chemical Society (2017)
a=20.974(14)Å b=11.896(9)Å c=27.54(2)Å
α=90° β=104.70(3)° γ=90°
C21H47F3NO3P3RuS
C21H47F3NO3P3RuS
Inorganic Chemistry (2010) 49, 5482-5494
a=10.2224(5)Å b=19.1971(10)Å c=15.5142(8)Å
α=90° β=103.351(2)° γ=90°
C19H46NP3Ru
C19H46NP3Ru
Inorganic Chemistry (2010) 49, 5482-5494
a=14.3777(4)Å b=9.9139(3)Å c=17.8316(5)Å
α=90° β=103.5144(14)° γ=90°
C19H46Cl2NP3Ru
C19H46Cl2NP3Ru
Inorganic Chemistry (2010) 49, 5482-5494
a=9.9919(5)Å b=10.4067(5)Å c=13.1852(6)Å
α=104.037(2)° β=100.273(2)° γ=101.193(2)°
C20H50NP3Ru
C20H50NP3Ru
Inorganic Chemistry (2010) 49, 5482-5494
a=12.7484(6)Å b=19.6938(9)Å c=10.1107(5)Å
α=90° β=90° γ=90°
C41H58ClMgN2,BC24F20
C41H58ClMgN2,BC24F20
Dalton transactions (Cambridge, England : 2003) (2019) 48, 17 5560-5568
a=18.5500(2)Å b=17.9339(2)Å c=18.7239(2)Å
α=90° β=103.2360(10)° γ=90°
C10H20B2O4
C10H20B2O4
Dalton transactions (Cambridge, England : 2003) (2017) 46, 11 3661-3680
a=8.8311(5)Å b=8.8311(5)Å c=27.5396(16)Å
α=90° β=90° γ=120°
CuO4W
CuO4W
Chemistry of Materials (2011) 23, 18 4220
a=4.7080(10)Å b=5.8400(10)Å c=4.8840(10)Å
α=91.77(3)° β=92.47(3)° γ=82.81(3)°
C52H52B2,2(C7H8)
C52H52B2,2(C7H8)
The Journal of organic chemistry (2018) 83, 7 3599-3606
a=13.962(3)Å b=8.1050(16)Å c=23.041(10)Å
α=90° β=99.88(2)° γ=90°
C26H21BrMnN5O3,0.24(H2O)
C26H21BrMnN5O3,0.24(H2O)
Inorganic Chemistry Frontiers (2017) 4, 9 1517
a=10.671(4)Å b=11.165(4)Å c=11.549(5)Å
α=84.587(11)° β=65.074(11)° γ=79.68(2)°
C22H13BrMnN5O3,C3H6O
C22H13BrMnN5O3,C3H6O
Inorganic Chemistry Frontiers (2017) 4, 9 1517
a=28.855(11)Å b=6.950(3)Å c=25.152(9)Å
α=90° β=106.66(3)° γ=90°
C28H59ClIrNP2
C28H59ClIrNP2
Organometallics (2009) 28, 21 6331
a=10.5995(4)Å b=12.0821(4)Å c=15.4891(5)Å
α=67.976(1)° β=84.985(2)° γ=71.147(1)°
C20H45IrNOP2,C24H20B
C20H45IrNOP2,C24H20B
Organometallics (2009) 28, 21 6331
a=11.4149(3)Å b=13.8996(4)Å c=14.3394(4)Å
α=75.453(2)° β=69.695(2)° γ=86.219(2)°
C24H53IrNOP2,C24H20B
C24H53IrNOP2,C24H20B
Organometallics (2009) 28, 21 6331
a=16.0820(12)Å b=16.5792(13)Å c=19.2566(14)Å
α=75.202(3)° β=88.153(3)° γ=84.312(3)°
Diaspore
AlHO2
Physics and Chemistry of Minerals (2007) 34, 145-157
a=4.374Å b=9.39Å c=2.833Å
α=90° β=90° γ=90°
Diaspore
AlHO2
Physics and Chemistry of Minerals (2007) 34, 145-157
a=4.354Å b=9.369Å c=2.8281Å
α=90° β=90° γ=90°
Diaspore
AlHO2
Physics and Chemistry of Minerals (2007) 34, 145-157
a=4.335Å b=9.34Å c=2.820Å
α=90° β=90° γ=90°
Diaspore
AlHO2
Physics and Chemistry of Minerals (2007) 34, 145-157
a=4.328Å b=9.336Å c=2.818Å
α=90° β=90° γ=90°
Diaspore
AlHO2
Physics and Chemistry of Minerals (2007) 34, 145-157
a=4.315Å b=9.32Å c=2.812Å
α=90° β=90° γ=90°
CoO18Sb2
CoO18Sb2
American Mineralogist (2000) 85, 593-599
a=16.105Å b=16.105Å c=9.851Å
α=90° β=90° γ=120°
Brandholzite
H24MgO18Sb2
American Mineralogist (2000) 85, 593-599
a=16.119Å b=16.119Å c=9.868Å
α=90° β=90° γ=120°
Chondrodite
F1.16Fe0.1H0.84Mg4.9O8.84Si2
American Mineralogist (2002) 87, 931-939
a=4.7328Å b=10.2765Å c=7.8760Å
α=109.081° β=90° γ=90°
Chondrodite
F1.16Fe0.1H0.84Mg4.9O8.84Si2
American Mineralogist (2002) 87, 931-939
a=4.6881Å b=10.1222Å c=7.7660Å
α=108.989° β=90° γ=90°
Chondrodite
F1.16Fe0.1H0.84Mg4.9O8.84Si2
American Mineralogist (2002) 87, 931-939
a=4.65459Å b=10.0033Å c=7.6828Å
α=108.939° β=90° γ=90°
Chondrodite (deuterated)
D0.9F1.1Mg5O8.9Si2
American Mineralogist (2002) 87, 931-939
a=4.7179Å b=10.2247Å c=7.8290Å
α=109.01° β=90° γ=90°
Chondrodite (deuterated)
D0.9F1.1Mg5O8.9Si2
American Mineralogist (2002) 87, 931-939
a=4.7024Å b=10.1742Å c=7.7938Å
α=109.00° β=90° γ=90°
Chondrodite (deuterated)
D0.9F1.1Mg5O8.9Si2
American Mineralogist (2002) 87, 931-939
a=4.6939Å b=10.1458Å c=7.7722Å
α=108.98° β=90° γ=90°
Chondrodite (deuterated)
D0.9F1.1Mg5O8.9Si2
American Mineralogist (2002) 87, 931-939
a=4.6827Å b=10.1055Å c=7.7449Å
α=108.98° β=90° γ=90°
Chondrodite (deuterated)
D0.9F1.1Mg5O8.9Si2
American Mineralogist (2002) 87, 931-939
a=4.6688Å b=10.0589Å c=7.7127Å
α=108.98° β=90° γ=90°
Henritermierite
Al0.066Ca3H3.8Mn1.934O11.964Si2.047
American Mineralogist (2001) 86, 147-158
a=12.489Å b=12.489Å c=11.909Å
α=90° β=90° γ=90°
Henritermierite
Al0.066Ca3H3.8Mn1.934O11.992Si2.044
American Mineralogist (2001) 86, 147-158
a=12.468Å b=12.468Å c=11.894Å
α=90° β=90° γ=90°
Henritermierite
Ca3H3.8Mn2O12Si1.941
American Mineralogist (2001) 86, 147-158
a=12.1577Å b=12.1577Å c=11.6919Å
α=90° β=90° γ=90°
Hydroxylclinohumite
Fe0.91H0.92Mg7.63O18Si4Ti0.454
American Mineralogist (2001) 86, 981-989
a=4.7344Å b=10.286Å c=13.713Å
α=101.042° β=90° γ=90°
Hydroxylclinohumite
Fe0.91H0.96Mg7.65O18Si4Ti0.454
American Mineralogist (2001) 86, 981-989
a=4.7282Å b=10.273Å c=13.702Å
α=101.004° β=90° γ=90°
Clinohumite
F1.08H0.8Mg8.792O16.88Si4Ti0.208
American Mineralogist (2001) 86, 981-989
a=4.7404Å b=10.2380Å c=13.651Å
α=100.909° β=90° γ=90°
Hydroxylclinohumite
Fe0.87H0.94Mg7.69O18Si4Ti0.454
American Mineralogist (2001) 86, 981-989
a=4.7313Å b=10.274Å c=13.695Å
α=101.029° β=90° γ=90°
Clinohumite
F0.98H0.82Mg8.772O17.04Si4Ti0.228
American Mineralogist (2001) 86, 981-989
a=4.7366Å b=10.226Å c=13.636Å
α=100.904° β=90° γ=90°
Clinohumite
F0.98H0.84Mg8.784O17.04Si4Ti0.216
American Mineralogist (2001) 86, 981-989
a=4.7362Å b=10.226Å c=13.635Å
α=100.904° β=90° γ=90°
Chondrodite
F1.14Fe0.12H0.86Mg4.88O8.86Si2
American Mineralogist (2001) 86, 981-989
a=4.7401Å b=10.2843Å c=7.8831Å
α=109.097° β=90° γ=90°
Chondrodite
F1.156Fe0.11H0.844Mg4.89O8.844Si2
American Mineralogist (2001) 86, 981-989
a=4.7321Å b=10.2641Å c=7.8673Å
α=109.052° β=90° γ=90°
Chondrodite
F1.136Fe0.11H0.864Mg4.89O8.864Si2
American Mineralogist (2001) 86, 981-989
a=4.7345Å b=10.2674Å c=7.8716Å
α=109.060° β=90° γ=90°
CoO18Sb2
CoO18Sb2
American Mineralogist (2003) 88, 462-463
a=16.105Å b=16.105Å c=9.851Å
α=90° β=90° γ=120°