Structures by: Buss J. A.

Total: 28

C40H44N2NiP2

C40H44N2NiP2

Shida, NaokiBuss, Joshua A.Agapie, Theodor

Chemical communications (Cambridge, England) (2018) 54, 7 767-770

a=10.1578(5)Å   b=12.6891(7)Å   c=13.5459(7)Å

α=101.964(2)°   β=90.747(2)°   γ=105.179(2)°

C32H32Cl2N2NiP2,2(C4H8O)

C32H32Cl2N2NiP2,2(C4H8O)

Shida, NaokiBuss, Joshua A.Agapie, Theodor

Chemical communications (Cambridge, England) (2018) 54, 7 767-770

a=17.2751(11)Å   b=11.6325(7)Å   c=18.6817(12)Å

α=90°   β=90.593(2)°   γ=90°

C56H40Cl4NiP4,2.5(C7H8),0.5(C5H12)

C56H40Cl4NiP4,2.5(C7H8),0.5(C5H12)

Shida, NaokiBuss, Joshua A.Agapie, Theodor

Chemical communications (Cambridge, England) (2018) 54, 7 767-770

a=15.3354(8)Å   b=26.2108(16)Å   c=16.4415(10)Å

α=90°   β=103.332(2)°   γ=90°

C35H49ClMoOP2Si

C35H49ClMoOP2Si

Buss, Joshua A.Agapie, Theodor

Journal of the American Chemical Society (2016) 138, 50 16466-16477

a=9.2760(3)Å   b=11.7913(4)Å   c=16.9954(6)Å

α=108.1820(10)°   β=100.2460(10)°   γ=98.8360(10)°

C38H58MoO2P2Si2,C4H10

C38H58MoO2P2Si2,C4H10

Buss, Joshua A.Agapie, Theodor

Journal of the American Chemical Society (2016) 138, 50 16466-16477

a=12.8387(8)Å   b=13.2552(8)Å   c=14.3715(8)Å

α=76.202(2)°   β=75.565(2)°   γ=72.413(2)°

C48H40BF15MoN2P2

C48H40BF15MoN2P2

Buss, Joshua A.VanderVelde, David G.Agapie, Theodor

Journal of the American Chemical Society (2018) 140, 32 10121-10125

a=23.5019(11)Å   b=9.3504(5)Å   c=20.5286(9)Å

α=90°   β=90°   γ=90°

C31H40MoO2P2,2(C3H3)

C31H40MoO2P2,2(C3H3)

Buss, Joshua A.VanderVelde, David G.Agapie, Theodor

Journal of the American Chemical Society (2018) 140, 32 10121-10125

a=8.773(3)Å   b=11.504(3)Å   c=16.681(5)Å

α=93.575(10)°   β=98.963(9)°   γ=103.528(10)°

C49H40BF15MoO2P2

C49H40BF15MoO2P2

Buss, Joshua A.VanderVelde, David G.Agapie, Theodor

Journal of the American Chemical Society (2018) 140, 32 10121-10125

a=9.4051(4)Å   b=11.3058(5)Å   c=22.0674(10)Å

α=103.065(2)°   β=94.669(2)°   γ=96.976(2)°

C60H80Mo2N2P4,C6H5Cl,2(C32H12BF24)

C60H80Mo2N2P4,C6H5Cl,2(C32H12BF24)

Buss, Joshua A.VanderVelde, David G.Agapie, Theodor

Journal of the American Chemical Society (2018) 140, 32 10121-10125

a=13.0558(8)Å   b=16.4548(10)Å   c=16.5050(10)Å

α=65.959(2)°   β=81.517(2)°   γ=78.563(2)°

1(C31H40MoOP2),C32H12BF24,2(C6H6)

1(C31H40MoOP2),C32H12BF24,2(C6H6)

Buss, Joshua A.VanderVelde, David G.Agapie, Theodor

Journal of the American Chemical Society (2018) 140, 32 10121-10125

a=13.0216(7)Å   b=16.2787(8)Å   c=18.3832(9)Å

α=111.964(2)°   β=100.228(3)°   γ=92.383(3)°

C32H41ClMoOP2,0.5(C4H8O),0.25(C7H16O2)

C32H41ClMoOP2,0.5(C4H8O),0.25(C7H16O2)

Buss, Joshua A.Bailey, Gwendolyn A.Oppenheim, JuliusVanderVelde, David G.Goddard, 3rd, William AAgapie, Theodor

Journal of the American Chemical Society (2019) 141, 39 15664-15674

a=12.469(6)Å   b=12.592(5)Å   c=23.363(11)Å

α=91.78(3)°   β=104.66(2)°   γ=102.92(3)°

C33H40MoO2P2,2(C6H6)

C33H40MoO2P2,2(C6H6)

Buss, Joshua A.Bailey, Gwendolyn A.Oppenheim, JuliusVanderVelde, David G.Goddard, 3rd, William AAgapie, Theodor

Journal of the American Chemical Society (2019) 141, 39 15664-15674

a=11.665(8)Å   b=12.561(5)Å   c=13.985(6)Å

α=72.96(4)°   β=81.20(5)°   γ=88.33(4)°

C32H42MoOP2,0.5(C7H8)

C32H42MoOP2,0.5(C7H8)

Buss, Joshua A.Bailey, Gwendolyn A.Oppenheim, JuliusVanderVelde, David G.Goddard, 3rd, William AAgapie, Theodor

Journal of the American Chemical Society (2019) 141, 39 15664-15674

a=23.82(2)Å   b=21.933(9)Å   c=13.402(5)Å

α=90°   β=116.50(2)°   γ=90°

C35H50MoOP2Si,C2H5

C35H50MoOP2Si,C2H5

Buss, Joshua A.Bailey, Gwendolyn A.Oppenheim, JuliusVanderVelde, David G.Goddard, 3rd, William AAgapie, Theodor

Journal of the American Chemical Society (2019) 141, 39 15664-15674

a=11.6736(5)Å   b=12.0522(5)Å   c=14.3227(6)Å

α=94.987(2)°   β=105.434(2)°   γ=110.315(2)°

2(C32H41ClMoOP2),C5H12

2(C32H41ClMoOP2),C5H12

Buss, Joshua A.Bailey, Gwendolyn A.Oppenheim, JuliusVanderVelde, David G.Goddard, 3rd, William AAgapie, Theodor

Journal of the American Chemical Society (2019) 141, 39 15664-15674

a=13.1011(8)Å   b=13.0037(8)Å   c=19.0467(12)Å

α=90°   β=95.462(4)°   γ=90°

C33H40MoO3P2

C33H40MoO3P2

Buss, Joshua A.Edouard, Guy A.Cheng, ChristineShi, JadeAgapie, Theodor

Journal of the American Chemical Society (2014) 136, 32 11272-11275

a=12.9284(7)Å   b=12.6055(6)Å   c=19.2797(9)Å

α=90.00°   β=100.020(2)°   γ=90.00°

C30H40MoN2P2

C30H40MoN2P2

Buss, Joshua A.Edouard, Guy A.Cheng, ChristineShi, JadeAgapie, Theodor

Journal of the American Chemical Society (2014) 136, 32 11272-11275

a=8.9892(3)Å   b=23.8655(7)Å   c=12.7797(4)Å

α=90°   β=94.7145(16)°   γ=90°

C32H40MoO2P2,2(CF3O3S)

C32H40MoO2P2,2(CF3O3S)

Buss, Joshua A.Edouard, Guy A.Cheng, ChristineShi, JadeAgapie, Theodor

Journal of the American Chemical Society (2014) 136, 32 11272-11275

a=12.7866(6)Å   b=16.4447(7)Å   c=17.5292(7)Å

α=90°   β=91.785(2)°   γ=90°

C32H44MoNP2,C24H20B

C32H44MoNP2,C24H20B

Buss, Joshua A.Edouard, Guy A.Cheng, ChristineShi, JadeAgapie, Theodor

Journal of the American Chemical Society (2014) 136, 32 11272-11275

a=12.7883(6)Å   b=16.1757(7)Å   c=23.2443(10)Å

α=90°   β=101.250(2)°   γ=90°

C34H46MoN2P2,2(CF3O3S),0.33(C2H3N)

C34H46MoN2P2,2(CF3O3S),0.33(C2H3N)

Buss, Joshua A.Edouard, Guy A.Cheng, ChristineShi, JadeAgapie, Theodor

Journal of the American Chemical Society (2014) 136, 32 11272-11275

a=32.0444(10)Å   b=32.0444(10)Å   c=21.1665(9)Å

α=90°   β=90°   γ=120°

C30H43MoP2,C24H20B,C4H8O

C30H43MoP2,C24H20B,C4H8O

Buss, Joshua A.Edouard, Guy A.Cheng, ChristineShi, JadeAgapie, Theodor

Journal of the American Chemical Society (2014) 136, 32 11272-11275

a=11.1314(5)Å   b=17.1403(8)Å   c=26.9594(12)Å

α=90°   β=94.544(2)°   γ=90°

C31.82H29.47AlCl2.18NP2

C31.82H29.47AlCl2.18NP2

Lifschitz, Alejo M.Hirscher, Nathanael A.Lee, Heui BeomBuss, Joshua A.Agapie, Theodor

Organometallics (2017) 36, 8 1640

a=11.6158(8)Å   b=11.8725(10)Å   c=12.0068(11)Å

α=94.734(5)°   β=100.951(5)°   γ=110.634(5)°

C31H27Cl3CrNP2,2(CH2Cl2)

C31H27Cl3CrNP2,2(CH2Cl2)

Lifschitz, Alejo M.Hirscher, Nathanael A.Lee, Heui BeomBuss, Joshua A.Agapie, Theodor

Organometallics (2017) 36, 8 1640

a=10.8962(7)Å   b=12.8113(15)Å   c=13.8238(17)Å

α=75.733(6)°   β=81.438(5)°   γ=73.265(5)°

C30H36Al2Cl3NP2

C30H36Al2Cl3NP2

Lifschitz, Alejo M.Hirscher, Nathanael A.Lee, Heui BeomBuss, Joshua A.Agapie, Theodor

Organometallics (2017) 36, 8 1640

a=10.5133(4)Å   b=12.7230(5)Å   c=13.7659(6)Å

α=64.1950(10)°   β=80.7120(10)°   γ=80.8120(10)°

AlCl4,C27H28NP2

AlCl4,C27H28NP2

Lifschitz, Alejo M.Hirscher, Nathanael A.Lee, Heui BeomBuss, Joshua A.Agapie, Theodor

Organometallics (2017) 36, 8 1640

a=10.2494(5)Å   b=15.7035(8)Å   c=17.8108(10)Å

α=90°   β=90°   γ=90°

C24H20AlCl3OP2,C6H6

C24H20AlCl3OP2,C6H6

Lifschitz, Alejo M.Hirscher, Nathanael A.Lee, Heui BeomBuss, Joshua A.Agapie, Theodor

Organometallics (2017) 36, 8 1640

a=9.3545(11)Å   b=9.3024(11)Å   c=17.270(2)Å

α=90°   β=101.913(3)°   γ=90°

0.5(C54H54Cl6Cr2N2P4),3(CH2Cl2)

0.5(C54H54Cl6Cr2N2P4),3(CH2Cl2)

Lifschitz, Alejo M.Hirscher, Nathanael A.Lee, Heui BeomBuss, Joshua A.Agapie, Theodor

Organometallics (2017) 36, 8 1640

a=13.5833(11)Å   b=14.3977(14)Å   c=20.235(2)Å

α=94.594(5)°   β=92.147(5)°   γ=109.222(4)°

C64H60Cl3Cr2N2P4,0.5(C0.77H2.3AlCl3.23),0.5(C0.69H2.06AlCl3.31),2(C7H8)

C64H60Cl3Cr2N2P4,0.5(C0.77H2.3AlCl3.23),0.5(C0.69H2.06AlCl3.31),2(C7H8)

Lifschitz, Alejo M.Hirscher, Nathanael A.Lee, Heui BeomBuss, Joshua A.Agapie, Theodor

Organometallics (2017) 36, 8 1640

a=14.6582(5)Å   b=22.7883(8)Å   c=24.5404(9)Å

α=68.6350(10)°   β=88.7120(10)°   γ=88.3820(10)°