Structures by: Arashiba K.
Total: 78
C33H57ClF3MoN3O4P2S
C33H57ClF3MoN3O4P2S
Nature Communications (2014) 5, 3737
a=16.4904(4)Å b=16.7621(3)Å c=16.7720(4)Å
α=90.0000° β=119.0773(7)° γ=90.0000°
C24H44.33ClMoN2P2
C24H44.33ClMoN2P2
Nature Communications (2014) 5, 3737
a=16.3159(5)Å b=16.3159(5)Å c=19.6989(5)Å
α=90.0000° β=90.0000° γ=120.0000°
C24H43ClF3MoN2O3P2S
C24H43ClF3MoN2O3P2S
Nature Communications (2014) 5, 3737
a=33.3044(7)Å b=15.2043(3)Å c=13.0074(3)Å
α=90.0000° β=109.7844(7)° γ=90.0000°
C32.33H61.67Cl2MoN2O2.33P2
C32.33H61.67Cl2MoN2O2.33P2
Nature Communications (2014) 5, 3737
a=36.2479(10)Å b=36.2479(10)Å c=17.0202(5)Å
α=90.0000° β=90.0000° γ=120.0000°
C39H64Cl5FeMoNP2
C39H64Cl5FeMoNP2
Chem. Sci. (2015) 6, 7 3940
a=13.2456(6)Å b=15.6143(6)Å c=24.2272(12)Å
α=90.5380(13)° β=102.6950(14)° γ=112.9640(10)°
C72H116Fe2Mo2N12P4
C72H116Fe2Mo2N12P4
Chem. Sci. (2015) 6, 7 3940
a=14.749(3)Å b=15.266(3)Å c=18.081(4)Å
α=72.467(5)° β=83.794(4)° γ=81.014(4)°
C39H65Cl3FeMoNP2
C39H65Cl3FeMoNP2
Chem. Sci. (2015) 6, 7 3940
a=21.9221(10)Å b=15.8520(7)Å c=14.0070(6)Å
α=90.0000° β=121.6313(9)° γ=90.0000°
C72H116Mo2N12P4Ru2
C72H116Mo2N12P4Ru2
Chem. Sci. (2015) 6, 7 3940
a=14.7212(3)Å b=15.3604(3)Å c=18.0121(4)Å
α=72.7582(7)° β=84.4816(7)° γ=81.1096(7)°
C40H57Cl5FeMoNP2
C40H57Cl5FeMoNP2
Chem. Sci. (2015) 6, 7 3940
a=18.9384(12)Å b=19.5210(11)Å c=13.7984(8)Å
α=90.0000° β=120.8596(11)° γ=90.0000°
C23.75H44.50Cl4.50MoNP2
C23.75H44.50Cl4.50MoNP2
Nature chemistry (2011) 3, 2 120-125
a=28.6387(12)Å b=14.9963(8)Å c=19.6011(7)Å
α=90.0000° β=125.4800(10)° γ=90.0000°
C56H100Mo2N4O4P4
C56H100Mo2N4O4P4
Nature chemistry (2011) 3, 2 120-125
a=36.1127(7)Å b=36.1127(7)Å c=24.6029(5)Å
α=90.0000° β=90.0000° γ=120.0000°
C31H53BF5MoN4P2
C31H53BF5MoN4P2
Nature chemistry (2011) 3, 2 120-125
a=34.4412(13)Å b=11.1522(3)Å c=20.6925(7)Å
α=90.0000° β=111.6301(11)° γ=90.0000°
C22H42ClNP2Rh
C22H42ClNP2Rh
Chemical Communications (2019)
a=11.5932(3)Å b=14.5110(3)Å c=15.1619(4)Å
α=90.0000° β=90.0000° γ=90.0000°
C22H42N3P2Rh
C22H42N3P2Rh
Chemical Communications (2019)
a=15.2008(5)Å b=13.0723(4)Å c=14.5495(4)Å
α=90.0000° β=118.509(8)° γ=90.0000°
C23H42NOP2Rh
C23H42NOP2Rh
Chemical Communications (2019)
a=15.2192(4)Å b=13.0419(4)Å c=14.5491(5)Å
α=90.0000° β=118.510(8)° γ=90.0000°
C42H82ClKNO8P2Rh
C42H82ClKNO8P2Rh
Chemical Communications (2019)
a=30.3543(9)Å b=10.6969(4)Å c=31.0098(10)Å
α=90.0000° β=92.302(7)° γ=90.0000°
C24H46ClFeNP2
C24H46ClFeNP2
Chem. Commun. (2017)
a=7.9348(3)Å b=30.5114(10)Å c=11.7516(5)Å
α=90.0000° β=106.870(8)° γ=90.0000°
C34H50FeN3P2
C34H50FeN3P2
Chem. Commun. (2017)
a=11.3469(15)Å b=12.4305(17)Å c=23.789(3)Å
α=90.0000° β=90.0000° γ=90.0000°
C116H128B2F48Fe2N4OP4
C116H128B2F48Fe2N4OP4
Chem. Commun. (2017)
a=13.6593(3)Å b=19.7786(6)Å c=25.3257(7)Å
α=71.984(5)° β=88.405(6)° γ=81.675(6)°
C24H47FeNP2
C24H47FeNP2
Chem. Commun. (2017)
a=13.1139(15)Å b=19.901(2)Å c=11.5419(14)Å
α=90.0000° β=115.595(8)° γ=90.0000°
C23H43As2Cl3MoN
C23H43As2Cl3MoN
Chemical communications (Cambridge, England) (2013) 49, 81 9290-9292
a=16.6959(3)Å b=25.6652(5)Å c=13.6023(3)Å
α=90.0000° β=90.0000° γ=90.0000°
C26H52As2MoN5P
C26H52As2MoN5P
Chemical communications (Cambridge, England) (2013) 49, 81 9290-9292
a=10.6374(10)Å b=11.4503(10)Å c=15.0424(12)Å
α=107.8606(18)° β=99.1578(17)° γ=105.823(2)°
C52H100As4Mo2N12
C52H100As4Mo2N12
Chemical communications (Cambridge, England) (2013) 49, 81 9290-9292
a=18.4671(5)Å b=13.9179(4)Å c=25.7755(8)Å
α=90.0000° β=104.8817(8)° γ=90.0000°
C52H100Cl4Mo2N4P4
C52H100Cl4Mo2N4P4
Chem.Commun. (2013) 49, 11215
a=12.3345(16)Å b=12.7158(16)Å c=20.165(2)Å
α=88.584(4)° β=86.511(3)° γ=87.074(3)°
C34H50ClFeNP2
C34H50ClFeNP2
Chem. Commun. (2017)
a=12.1149(4)Å b=14.9649(5)Å c=18.4913(6)Å
α=90.0000° β=90.0000° γ=90.0000°
C54H55BF24FeN3P2
C54H55BF24FeN3P2
Chem. Commun. (2017)
a=12.2583(15)Å b=12.4893(14)Å c=21.819(3)Å
α=87.436(6)° β=73.611(5)° γ=88.777(6)°
C24H46FeN3P2
C24H46FeN3P2
Chem. Commun. (2017)
a=7.9977(9)Å b=30.408(4)Å c=11.7607(14)Å
α=90.0000° β=106.780(8)° γ=90.0000°
C76H124Cl2Fe2N2P4
C76H124Cl2Fe2N2P4
Dalton transactions (Cambridge, England : 2003) (2018) 47, 4 1117-1121
a=23.0868(5)Å b=14.8066(4)Å c=24.7743(5)Å
α=90.0000° β=93.479(7)° γ=90.0000°
C62H86ClFeNP2
C62H86ClFeNP2
Dalton transactions (Cambridge, England : 2003) (2018) 47, 4 1117-1121
a=11.7043(3)Å b=25.1225(5)Å c=19.9855(4)Å
α=90.0000° β=93.203(7)° γ=90.0000°
C82H140Fe2N2OP4
C82H140Fe2N2OP4
Dalton transactions (Cambridge, England : 2003) (2018) 47, 4 1117-1121
a=23.1407(4)Å b=14.8928(3)Å c=24.4042(4)Å
α=90.0000° β=92.8868(7)° γ=90.0000°
C76H124Fe2N4P4
C76H124Fe2N4P4
Dalton transactions (Cambridge, England : 2003) (2018) 47, 4 1117-1121
a=25.4160(5)Å b=13.1322(3)Å c=24.3186(6)Å
α=90.0000° β=102.791(7)° γ=90.0000°
C22H42Cl2NP2Ti
C22H42Cl2NP2Ti
Dalton transactions (Cambridge, England : 2003) (2018) 47, 33 11322-11326
a=12.5443(3)Å b=14.5948(4)Å c=15.2113(4)Å
α=90.0000° β=90.0000° γ=90.0000°
C44H84Cl6N2P4Zr2
C44H84Cl6N2P4Zr2
Dalton transactions (Cambridge, England : 2003) (2018) 47, 33 11322-11326
a=14.8731(10)Å b=14.7823(9)Å c=25.3833(15)Å
α=90.0000° β=90.0000° γ=90.0000°
C27H47ClNP2Ti
C27H47ClNP2Ti
Dalton transactions (Cambridge, England : 2003) (2018) 47, 33 11322-11326
a=47.9405(19)Å b=8.5955(3)Å c=13.8464(6)Å
α=90.0000° β=97.655(7)° γ=90.0000°
C68H110N4P4Zr2
C68H110N4P4Zr2
Dalton transactions (Cambridge, England : 2003) (2018) 47, 33 11322-11326
a=27.0349(9)Å b=14.8663(4)Å c=17.7670(6)Å
α=90.0000° β=107.262(8)° γ=90.0000°
C27H47Cl2NP2Zr
C27H47Cl2NP2Zr
Dalton transactions (Cambridge, England : 2003) (2018) 47, 33 11322-11326
a=21.3223(6)Å b=9.8821(3)Å c=28.558(3)Å
α=90.0000° β=104.499(7)° γ=90.0000°
C54H94N4P4Ti2
C54H94N4P4Ti2
Dalton transactions (Cambridge, England : 2003) (2018) 47, 33 11322-11326
a=12.9662(3)Å b=22.1194(4)Å c=22.1259(4)Å
α=90.0000° β=90.0000° γ=90.0000°
C19H35I3MoNP2
C19H35I3MoNP2
Dalton Transactions (2019)
a=26.9513(9)Å b=17.2697(6)Å c=11.1949(3)Å
α=90.0000° β=90.0000° γ=90.0000°
C24H45I3MoNP2
C24H45I3MoNP2
Dalton Transactions (2019)
a=23.5322(6)Å b=23.5322(6)Å c=21.9910(6)Å
α=90.0000° β=90.0000° γ=90.0000°
C31H27I3MoNP2
C31H27I3MoNP2
Dalton Transactions (2019)
a=10.8646(7)Å b=11.4437(7)Å c=13.9846(10)Å
α=96.216(7)° β=98.933(7)° γ=109.654(8)°
C29H47IMoN2P2
C29H47IMoN2P2
Dalton Transactions (2019)
a=19.962(2)Å b=18.924(2)Å c=18.744(2)Å
α=90.0000° β=114.643(8)° γ=90.0000°
C37H59FeIMoN2OP2
C37H59FeIMoN2OP2
Dalton Transactions (2019)
a=21.9017(10)Å b=15.3078(8)Å c=13.8750(6)Å
α=90.0000° β=120.601(9)° γ=90.0000°
C33H51I3MoNP2Ru
C33H51I3MoNP2Ru
Dalton Transactions (2019)
a=15.0489(6)Å b=18.7575(7)Å c=17.1035(8)Å
α=90.0000° β=90.845(6)° γ=90.0000°
C24H45I3MoNOP2
C24H45I3MoNOP2
Dalton Transactions (2019)
a=23.7105(10)Å b=23.7105(10)Å c=22.0142(5)Å
α=90.0000° β=90.0000° γ=90.0000°
C33H51FeI3MoNP2
C33H51FeI3MoNP2
Dalton Transactions (2019)
a=14.8370(5)Å b=18.7561(5)Å c=17.0679(5)Å
α=90.0000° β=90.450(6)° γ=90.0000°
C37H71I5Mo2N2P3
C37H71I5Mo2N2P3
Dalton Transactions (2019)
a=24.7398(5)Å b=25.2842(5)Å c=25.498(3)Å
α=90.0000° β=118.700(5)° γ=90.0000°
C52H100Mo2N12P4
C52H100Mo2N12P4
Nature chemistry (2011) 3, 2 120-125
a=36.3354(7)Å b=36.3354(7)Å c=24.3428(4)Å
α=90.0000° β=90.0000° γ=120.0000°
C26H49ClMoNP3
C26H49ClMoNP3
Journal of the American Chemical Society (2015) 137, 17 5666-5669
a=8.5644(6)Å b=20.4505(11)Å c=17.1479(9)Å
α=90.0000° β=93.8777(16)° γ=90.0000°
C58H61BClF24MoNP3
C58H61BClF24MoNP3
Journal of the American Chemical Society (2015) 137, 17 5666-5669
a=15.486(12)Å b=28.395(18)Å c=16.019(11)Å
α=90.0000° β=115.902(14)° γ=90.0000°
C54H104Mo2N12O2P4
C54H104Mo2N12O2P4
Journal of the American Chemical Society (2014) 136, 27 9719-9731
a=31.2829(12)Å b=10.0768(4)Å c=21.9085(7)Å
α=90.0000° β=111.7160(9)° γ=90.0000°
C24H45Cl3MoNP2
C24H45Cl3MoNP2
Journal of the American Chemical Society (2014) 136, 27 9719-9731
a=13.2161(6)Å b=14.3784(8)Å c=15.8066(7)Å
α=90.0000° β=90.0000° γ=90.0000°
C57H102Mo2N12P4
C57H102Mo2N12P4
Journal of the American Chemical Society (2014) 136, 27 9719-9731
a=14.832(3)Å b=15.833(3)Å c=17.039(3)Å
α=95.687(4)° β=114.830(4)° γ=106.543(4)°
C64H104Mo2N12P4
C64H104Mo2N12P4
Journal of the American Chemical Society (2014) 136, 27 9719-9731
a=12.5589(3)Å b=14.6629(5)Å c=20.7661(5)Å
α=96.7468(12)° β=101.4347(8)° γ=96.4981(12)°
C60H118Mo2N12P4
C60H118Mo2N12P4
Journal of the American Chemical Society (2014) 136, 27 9719-9731
a=24.7796(9)Å b=21.6001(9)Å c=13.6238(6)Å
α=90.0000° β=103.7381(10)° γ=90.0000°
C47H59BOPRhS2W
C47H59BOPRhS2W
Inorganic Chemistry (2008) 47, 4264-4274
a=12.2357(12)Å b=17.377(2)Å c=11.6691(10)Å
α=103.311(8)° β=94.657(8)° γ=73.725(8)°
C23H39NOPS2RhW
C23H39NOPS2RhW
Inorganic Chemistry (2008) 47, 4264-4274
a=17.008(2)Å b=18.843(2)Å c=17.127(2)Å
α=90° β=97.121(8)° γ=90°
C37H41Cl2MoNOP2PdS2
C37H41Cl2MoNOP2PdS2
Inorganic Chemistry (2008) 47, 4264-4274
a=22.457(4)Å b=15.578(5)Å c=23.520(5)Å
α=90.0000° β=105.152(16)° γ=90.0000°
C37H41MoNOP2PtS2
C37H41MoNOP2PtS2
Inorganic Chemistry (2008) 47, 4264-4274
a=18.643(4)Å b=15.995(3)Å c=23.338(5)Å
α=90.0000° β=90.0000° γ=90.0000°
C44H46N2OP2PdS2W
C44H46N2OP2PdS2W
Inorganic Chemistry (2008) 47, 4264-4274
a=19.175(4)Å b=17.553(4)Å c=12.300(3)Å
α=90.0000° β=90.0000° γ=90.0000°
C23H39F6NOP2RhS2W
C23H39F6NOP2RhS2W
Inorganic Chemistry (2008) 47, 4264-4274
a=17.627(2)Å b=16.3216(15)Å c=21.7804(16)Å
α=90.0000° β=90.0000° γ=90.0000°
C24H42F6NOP2RhS2W
C24H42F6NOP2RhS2W
Inorganic Chemistry (2008) 47, 4264-4274
a=8.714(3)Å b=24.849(4)Å c=14.533(2)Å
α=90° β=91.52(2)° γ=90°
C48H62BNMoOPS2Rh
C48H62BNMoOPS2Rh
Inorganic Chemistry (2008) 47, 4264-4274
a=10.204(1)Å b=18.072(3)Å c=27.000(5)Å
α=75.05(1)° β=88.46(1)° γ=82.92(1)°
C60H102As4Cl4N4Ru2
C60H102As4Cl4N4Ru2
Organometallics (2014) 33, 24 7333
a=12.6675(3)Å b=21.9658(4)Å c=24.5172(5)Å
α=90.0000° β=97.6953(7)° γ=90.0000°
C24H44As2ClNORu
C24H44As2ClNORu
Organometallics (2014) 33, 24 7333
a=8.8245(7)Å b=10.7552(9)Å c=15.7964(10)Å
α=107.3539(18)° β=93.752(2)° γ=98.0469(17)°
C48H62BMoNOPRhS2
C48H62BMoNOPRhS2
Organometallics (2006) 25, 3 560
a=10.204(1)Å b=18.072(3)Å c=27.000(5)Å
α=75.05(1)° β=88.46(1)° γ=82.92(1)°
C23H39NOPRhS2W
C23H39NOPRhS2W
Organometallics (2006) 25, 3 560
a=17.008(2)Å b=18.843(2)Å c=17.127(2)Å
α=90° β=97.121(8)° γ=90°
C24H42F6NOP2RhS2W
C24H42F6NOP2RhS2W
Organometallics (2006) 25, 3 560
a=8.714(3)Å b=24.849(4)Å c=14.533(2)Å
α=90° β=91.52(2)° γ=90°
C27H51Cl3NOP2W
C27H51Cl3NOP2W
Organometallics (2012) 31, 5 2035
a=29.2304(8)Å b=14.9824(4)Å c=19.7839(5)Å
α=90.0000° β=126.2874(7)° γ=90.0000°
C31H54N5P3W
C31H54N5P3W
Organometallics (2012) 31, 5 2035
a=10.6999(6)Å b=13.0508(6)Å c=13.9197(7)Å
α=73.1991(12)° β=79.6971(15)° γ=69.3292(14)°
C20H37Cl5MoNP2
C20H37Cl5MoNP2
Organometallics (2012) 31, 5 2035
a=19.9052(5)Å b=10.7519(3)Å c=27.3135(8)Å
α=90.0000° β=107.3880(9)° γ=90.0000°
C26H52MoN5P3
C26H52MoN5P3
Organometallics (2012) 31, 5 2035
a=8.8589(8)Å b=20.7314(18)Å c=17.8396(17)Å
α=90.0000° β=106.435(3)° γ=90.0000°
C27H35Cl3MoNP2
C27H35Cl3MoNP2
Organometallics (2012) 31, 23 8437
a=16.4840(17)Å b=18.1198(18)Å c=19.0049(19)Å
α=90.0000° β=90.0000° γ=90.0000°
C27H47Cl3MoNP2
C27H47Cl3MoNP2
Organometallics (2012) 31, 23 8437
a=16.1351(4)Å b=18.2992(4)Å c=20.8235(5)Å
α=90.0000° β=90.0000° γ=90.0000°
C42H78Mo2N12P4
C42H78Mo2N12P4
Organometallics (2012) 31, 23 8437
a=12.4475(4)Å b=22.2321(7)Å c=19.5339(7)Å
α=90.0000° β=91.4060(9)° γ=90.0000°
C13H24IrO2PS2W
C13H24IrO2PS2W
Chemistry Letters (2007) 36, 5 622
a=8.4702(12)Å b=12.985(2)Å c=16.275(3)Å
α=90.0000° β=90.0000° γ=90.0000°
C73H66BF24IrN2PS2Re
C73H66BF24IrN2PS2Re
Chemistry Letters (2007) 36, 5 622
a=13.817(8)Å b=15.322(15)Å c=17.809(15)Å
α=89.15(5)° β=86.44(4)° γ=77.36(4)°
C52H65ClIrN2PSW
C52H65ClIrN2PSW
Chemistry Letters (2007) 36, 5 622
a=21.684(3)Å b=12.9161(19)Å c=17.115(3)Å
α=90.0000° β=90.0000° γ=90.0000°
C25H41IrNPS3W
C25H41IrNPS3W
Chemistry Letters (2007) 36, 5 622
a=9.5917(16)Å b=14.842(2)Å c=21.050(4)Å
α=90.0000° β=102.0544(19)° γ=90.0000°