Structures by: Sharma M.
Total: 69
C21H25F2N3O2
C21H25F2N3O2
Journal of medicinal chemistry (2018) 61, 13 5664-5678
a=7.5165(16)Å b=8.0959(17)Å c=24.661(9)Å
α=90° β=90° γ=90°
C32H40O10
C32H40O10
Journal of medicinal chemistry (2018) 61, 13 5664-5678
a=7.7904(6)Å b=11.4929(11)Å c=16.2869(15)Å
α=90° β=103.739(3)° γ=90°
CHO
CHO
Journal of medicinal chemistry (2018) 61, 13 5664-5678
a=6.9288(8)Å b=7.9172(9)Å c=52.844(6)Å
α=90° β=90° γ=90°
C16H20O5
C16H20O5
Journal of medicinal chemistry (2018) 61, 13 5664-5678
a=8.0784(3)Å b=8.0784(3)Å c=45.237(2)Å
α=90° β=90° γ=90°
C16H26Cl2CuN6O8
C16H26Cl2CuN6O8
Dalton transactions (Cambridge, England : 2003) (2020) 49, 24 8282-8297
a=11.562(3)Å b=14.067(4)Å c=13.652(4)Å
α=90° β=91.830(4)° γ=90°
C18H26Cl2CuN6O8
C18H26Cl2CuN6O8
Dalton transactions (Cambridge, England : 2003) (2020) 49, 24 8282-8297
a=11.822(2)Å b=13.985(3)Å c=13.983(3)Å
α=90° β=93.685(2)° γ=90°
C40H31Cl1O2P2Ru1
C40H31Cl1O2P2Ru1
Dalton Transactions (2019)
a=23.900(5)Å b=10.450(2)Å c=29.670(6)Å
α=90° β=101.90(3)° γ=90°
2(C47H49Cl1O1P2Ru1Si2)
2(C47H49Cl1O1P2Ru1Si2)
Dalton Transactions (2019)
a=12.300(3)Å b=35.950(7)Å c=20.730(4)Å
α=90° β=102.68(3)° γ=90°
C80H60Cl2O4P4Ru2,2(C1H2Cl2)
C80H60Cl2O4P4Ru2,2(C1H2Cl2)
Dalton Transactions (2019)
a=27.361(5)Å b=10.355(5)Å c=29.764(5)Å
α=90° β=112.705(5)° γ=90°
C50H55N1O1P2Ru1S2Si2
C50H55N1O1P2Ru1S2Si2
Dalton Transactions (2019)
a=12.434(5)Å b=13.181(5)Å c=17.570(5)Å
α=80.940(5)° β=71.440(5)° γ=83.977(5)°
C43H39Cl1O2P2Ru1Si1
C43H39Cl1O2P2Ru1Si1
Dalton Transactions (2019)
a=9.970(2)Å b=19.640(4)Å c=19.770(4)Å
α=90° β=94.55(3)° γ=90°
C48H40Cl2O2P2RuS
C48H40Cl2O2P2RuS
Dalton Transactions (2019)
a=9.997(5)Å b=13.079(5)Å c=16.586(5)Å
α=100.126(5)° β=91.282(5)° γ=93.454(5)°
C15H11N3ClPt,NO3,HNO3
C15H11N3ClPt,NO3,HNO3
Chemical communications (Cambridge, England) (2020) 56, 70 10175-10178
a=6.5658(2)Å b=10.3732(3)Å c=13.0650(4)Å
α=77.632(2)° β=86.382(2)° γ=89.238(2)°
C15H11N3ClPt,NO3,HNO3
C15H11N3ClPt,NO3,HNO3
Chemical communications (Cambridge, England) (2020) 56, 70 10175-10178
a=9.06380(10)Å b=9.77440(10)Å c=10.39170(10)Å
α=68.6520(10)° β=84.6930(10)° γ=89.7600(10)°
C76H66N4Ni2P4Si2,1.5(C6H6)
C76H66N4Ni2P4Si2,1.5(C6H6)
Chemical communications (Cambridge, England) (2020) 56, 24 3532-3535
a=12.6509(3)Å b=16.9249(6)Å c=17.6665(6)Å
α=81.1890(12)° β=77.4286(16)° γ=73.2272(17)°
AS197
C76H66N4P4Pt2Si2,2(C6H6)
Chemical communications (Cambridge, England) (2020) 56, 24 3532-3535
a=12.9341(2)Å b=15.4591(3)Å c=20.0358(3)Å
α=70.8530(10)° β=79.0290(10)° γ=88.9370(10)°
C76H66N4P4Pd2Si2,2(C6H6)
C76H66N4P4Pd2Si2,2(C6H6)
Chemical communications (Cambridge, England) (2020) 56, 24 3532-3535
a=13.5450(3)Å b=17.6245(6)Å c=17.7005(4)Å
α=99.727(2)° β=103.685(2)° γ=109.549(3)°
C55H50N2P4Rh2,2(CF3O3S),2(C7H8)
C55H50N2P4Rh2,2(CF3O3S),2(C7H8)
Chemical Communications (2020)
a=11.7284(3)Å b=23.9123(7)Å c=12.0420(3)Å
α=90° β=93.506(3)° γ=90°
C51H44Br6P4Rh2
C51H44Br6P4Rh2
Chemical Communications (2020)
a=15.3383(2)Å b=15.3383(2)Å c=25.9466(5)Å
α=90° β=90° γ=90°
C51H44Cl6P4Rh2,CHCl3
C51H44Cl6P4Rh2,CHCl3
Chemical Communications (2020)
a=10.9452(5)Å b=14.1036(7)Å c=23.4931(8)Å
α=81.467(4)° β=76.544(3)° γ=69.731(4)°
C51H44Cl2P4Rh2,1.27(CH2Cl2)
C51H44Cl2P4Rh2,1.27(CH2Cl2)
Chemical Communications (2020)
a=21.2680(4)Å b=21.2680(4)Å c=14.3108(4)Å
α=90° β=90° γ=90°
C36H45AsCl2N2,0.5(C6H6)
C36H45AsCl2N2,0.5(C6H6)
Chemical Communications (2019)
a=22.4516(5)Å b=9.0396(2)Å c=17.9260(4)Å
α=90° β=105.448(2)° γ=90°
C36H46N2
C36H46N2
Chemical Communications (2019)
a=10.1696(5)Å b=17.3936(8)Å c=18.8594(8)Å
α=95.703(4)° β=94.597(4)° γ=90.041(4)°
C45H53AsFeN4O4
C45H53AsFeN4O4
Chemical Communications (2019)
a=10.33882(14)Å b=20.3971(3)Å c=20.0912(2)Å
α=90° β=102.9076(13)° γ=90°
C38H41AsFeN2O4
C38H41AsFeN2O4
Chemical Communications (2019)
a=10.5768(3)Å b=17.8360(4)Å c=21.1952(4)Å
α=81.8399(16)° β=87.3548(19)° γ=85.871(2)°
C19H25BN6O2TeW
C19H25BN6O2TeW
Chemical Communications (Cambridge, United Kingdom) (2018) 54, 14 1702-1705
a=10.28500(10)Å b=11.7366(2)Å c=20.8637(4)Å
α=90.500(2)° β=100.717(2)° γ=103.866(2)°
C18H22B1N6O2Te1W1,C8H20N1
C18H22B1N6O2Te1W1,C8H20N1
Chemical Communications (Cambridge, United Kingdom) (2018) 54, 14 1702-1705
a=10.0038(6)Å b=10.0481(6)Å c=16.8445(11)Å
α=96.049(4)° β=93.448(3)° γ=111.328(4)°
C24H27BN6O2TeW
C24H27BN6O2TeW
Chemical Communications (Cambridge, United Kingdom) (2018) 54, 14 1702-1705
a=11.1515(3)Å b=14.7348(4)Å c=17.8819(4)Å
α=70.872(2)° β=89.962(2)° γ=75.377(2)°
C36H44B2N12O4Te2W2
C36H44B2N12O4Te2W2
Chemical Communications (Cambridge, United Kingdom) (2018) 54, 14 1702-1705
a=20.1187(4)Å b=13.9835(3)Å c=36.0701(10)Å
α=90° β=104.180(2)° γ=90°
C36H44B2N12O4TeW2,2.5(C6H12)
C36H44B2N12O4TeW2,2.5(C6H12)
Chemical Communications (Cambridge, United Kingdom) (2018) 54, 14 1702-1705
a=10.4143(4)Å b=25.0854(9)Å c=22.5482(14)Å
α=90° β=102.335(5)° γ=90°
Polyoxoometallate
O28V10,22(H2O),6(Na),2(H2O)
New Journal of Chemistry (2018) 42, 7 5142
a=10.5790(6)Å b=11.3818(6)Å c=11.6474(7)Å
α=108.722(3)° β=103.837(3)° γ=111.593(3)°
C36H44B2Cl1N12O4P1W2,2(C1H2Cl2)
C36H44B2Cl1N12O4P1W2,2(C1H2Cl2)
Chemical communications (Cambridge, England) (2017) 53, 11 1832-1835
a=22.1833(6)Å b=10.5501(3)Å c=23.1940(4)Å
α=90° β=114.4551(14)° γ=90°
C42H55B2N12O4P1W2,C6H6
C42H55B2N12O4P1W2,C6H6
Chemical communications (Cambridge, England) (2017) 53, 11 1832-1835
a=24.2055(3)Å b=10.40920(10)Å c=25.5107(3)Å
α=90° β=105.9841(6)° γ=90°
C42H49B2N12O4P1W2,C6H6
C42H49B2N12O4P1W2,C6H6
Chemical communications (Cambridge, England) (2017) 53, 11 1832-1835
a=24.8643(5)Å b=10.7400(2)Å c=19.2900(4)Å
α=90° β=90° γ=90°
C42H49B2N12O4PW2
C42H49B2N12O4PW2
Chemical communications (Cambridge, England) (2017) 53, 11 1832-1835
a=10.5139(4)Å b=21.4625(9)Å c=24.2130(9)Å
α=66.375(4)° β=88.740(3)° γ=84.806(3)°
C40H45AsFeN2O4,0.5[C4H8O]
C40H45AsFeN2O4,0.5[C4H8O]
Chemical Communications (2019)
a=18.4632(3)Å b=10.6939(2)Å c=40.9108(8)Å
α=90° β=101.6009(18)° γ=90°
C27H27BCl3N4OPRuS2Si
C27H27BCl3N4OPRuS2Si
Dalton Trans. (2017)
a=10.101(5)Å b=10.655(5)Å c=16.973(5)Å
α=89.448(5)° β=81.499(5)° γ=63.321(5)°
C27H28B1N4O1P1Ru1S2
C27H28B1N4O1P1Ru1S2
Dalton Trans. (2017)
a=9.5785(2)Å b=19.3036(4)Å c=15.1080(3)Å
α=90° β=98.7271(18)° γ=90°
C27H28BN4OOsPS2,2(CHCl3)
C27H28BN4OOsPS2,2(CHCl3)
Dalton Trans. (2017)
a=9.5809(3)Å b=11.9170(5)Å c=16.4779(8)Å
α=81.611(4)° β=80.310(4)° γ=77.705(3)°
C38H48BCl2N6OPRuS3Si
C38H48BCl2N6OPRuS3Si
Dalton Trans. (2017)
a=10.600(2)Å b=11.370(2)Å c=18.480(4)Å
α=94.49(3)° β=98.61(3)° γ=105.69(3)°
C28H29B1Cl3N4O1P1Ru1S2Se1
C28H29B1Cl3N4O1P1Ru1S2Se1
Dalton Trans. (2017)
a=9.82220(10)Å b=17.73210(10)Å c=19.1412(2)Å
α=90° β=99.3538(8)° γ=90°
C33H31B2N4O3PRuS2,CH2Cl2
C33H31B2N4O3PRuS2,CH2Cl2
Dalton Trans. (2017)
a=11.1930(5)Å b=12.0791(5)Å c=14.4768(7)Å
α=76.821(4)° β=83.043(4)° γ=72.153(4)°
C46H42Cl4N4O2P2Ru2S2
C46H42Cl4N4O2P2Ru2S2
Dalton Trans. (2017)
a=15.3765(2)Å b=9.48940(10)Å c=16.8296(3)Å
α=90° β=106.263(2)° γ=90°
C41H34ClO5P2Rh
C41H34ClO5P2Rh
Dalton Transactions (2003) 13 2674-2679
a=9.2330(18)Å b=9.5526(18)Å c=11.657(2)Å
α=109.932(3)° β=108.346(3)° γ=96.835(4)°
C14H26P2Pd
C14H26P2Pd
Dalton transactions (Cambridge, England : 2003) (2012) 41, 38 11820-11828
a=8.782(2)Å b=18.624(3)Å c=10.664(2)Å
α=90.00° β=107.991(16)° γ=90.00°
C18H18N2Pd
C18H18N2Pd
Dalton transactions (Cambridge, England : 2003) (2012) 41, 38 11820-11828
a=47.366(2)Å b=8.4950(9)Å c=25.0650(15)Å
α=90.00° β=115.3600(10)° γ=90.00°
C14H16N2OPd
C14H16N2OPd
Dalton transactions (Cambridge, England : 2003) (2012) 41, 38 11820-11828
a=7.6740(7)Å b=9.1480(7)Å c=9.4860(6)Å
α=84.0070(10)° β=80.678(5)° γ=79.390(4)°
2,3-Dimethoxy-<i>meso</i>-tetrakis(pentafluorophenyl)morpholinochlorin methylene chloride 0.44-solvate
C46H16F20N4O3,0.44(CH2Cl2)
Acta Crystallographica Section E (2020) 76, 8 1222-1228
a=23.1774(10)Å b=15.4767(7)Å c=26.0442(13)Å
α=90° β=113.1683(18)° γ=90°
Chlorido{1-[(dimethylamino)methyl]ferrocenyl-κ^2^<i>C</i>^1^,<i>N</i>}(triphenylstibine-κ<i>Sb</i>)palladium(II)
C31H31ClFeNPdSb
Acta Crystallographica Section E (2013) 69, 7 m372
a=10.3138(6)Å b=19.8865(12)Å c=13.7584(9)Å
α=90° β=92.9840(10)° γ=90°
2,5-Bis{[(-)-(<i>S</i>)-1-(4-methylphenyl)ethyl]iminomethyl}thiophene
C24H26N2S
Acta Crystallographica Section E (2013) 69, 9 o1428
a=6.278(3)Å b=7.900(3)Å c=21.500(7)Å
α=90.00° β=90.00° γ=90.00°
C46H30N4NiS,CH2Cl2
C46H30N4NiS,CH2Cl2
The Journal of organic chemistry (2016) 81, 24 12350-12356
a=13.8085(4)Å b=19.1276(3)Å c=14.6014(4)Å
α=90° β=108.452(2)° γ=90°
C46H30N4NiS,1.299(C6H14)
C46H30N4NiS,1.299(C6H14)
The Journal of organic chemistry (2016) 81, 24 12350-12356
a=41.2820(5)Å b=41.2820(5)Å c=14.1626(2)Å
α=90° β=90° γ=120°
C46H30N4Ni
C46H30N4Ni
The Journal of organic chemistry (2016) 81, 24 12350-12356
a=11.6977(5)Å b=14.2227(6)Å c=39.3907(13)Å
α=90° β=90° γ=90°
C29H37N4Pt2Si,I
C29H37N4Pt2Si,I
Journal of the American Chemical Society (2009) 131, 7236-7237
a=8.2500(9)Å b=9.6850(9)Å c=21.0360(13)Å
α=96.373(5)° β=98.346(6)° γ=101.480(3)°
Motis-209(Manab)
C22H40Cl2N6Ti
Journal of the American Chemical Society (2012) 134, 17234-17244
a=9.768(2)Å b=15.864(3)Å c=18.139(4)Å
α=90.00° β=104.84(3)° γ=90.00°
C72H88Au4B4N24O9W4,H2O
C72H88Au4B4N24O9W4,H2O
Journal of the American Chemical Society (2013) 135, 4942-4945
a=14.1428(4)Å b=19.4442(4)Å c=19.5444(3)Å
α=89.6316(13)° β=70.6096(13)° γ=85.4020(12)°
Moris-284 (Dana)
C21H24Cl3N3Ti
Journal of the American Chemical Society (2013) 135, 12592-12595
a=16.815(2)Å b=16.2510(13)Å c=17.6820(13)Å
α=90.00° β=91.700(3)° γ=90.00°
Moris-212 (Manab)
C30H40Cl3N3Ti
Journal of the American Chemical Society (2013) 135, 12592-12595
a=9.441(2)Å b=9.489(2)Å c=19.860(4)Å
α=92.50(2)° β=95.35(3)° γ=112.65(3)°
Moris-216 (Manab)
C30H45N3Ti
Journal of the American Chemical Society (2013) 135, 12592-12595
a=9.782(2)Å b=12.497(2)Å c=25.540(5)Å
α=88.17(2)° β=84.97(2)° γ=80.52(2)°
Moris-215 (Manab)
C31H47ClN3O0.5Ti
Journal of the American Chemical Society (2013) 135, 12592-12595
a=9.512(2)Å b=9.590(2)Å c=19.951(5)Å
α=96.54(3)° β=95.29(2)° γ=112.14(3)°
C31H36B2Cl3N6O2P1W1
C31H36B2Cl3N6O2P1W1
Organometallics (2015) 34, 11 2165
a=10.2173(2)Å b=10.4412(2)Å c=17.5622(3)Å
α=90.0224(10)° β=92.6882(10)° γ=105.8832(10)°
C30H32B1N6O2P1W1
C30H32B1N6O2P1W1
Organometallics (2015) 34, 11 2165
a=8.1714(1)Å b=10.1587(1)Å c=18.9544(2)Å
α=76.1227(8)° β=87.1138(8)° γ=81.0287(7)°
C30H32B1N6O2P1S1W1
C30H32B1N6O2P1S1W1
Organometallics (2015) 34, 11 2165
a=10.2968(2)Å b=10.4179(2)Å c=17.2038(4)Å
α=98.7173(12)° β=106.0368(13)° γ=106.6702(11)°
C30H32B1N6O2P1S2W1
C30H32B1N6O2P1S2W1
Organometallics (2015) 34, 11 2165
a=9.9675(2)Å b=15.4834(4)Å c=23.6677(6)Å
α=90° β=92.4264(15)° γ=90°
C31H33B1Cl3N6O2P1Se1W1
C31H33B1Cl3N6O2P1Se1W1
Organometallics (2015) 34, 11 2165
a=10.2609(2)Å b=10.41160(10)Å c=17.5341(3)Å
α=90.5897(11)° β=91.1982(9)° γ=106.3725(10)°
C61H57B1N6O2P2Ru1Se1W1
C61H57B1N6O2P2Ru1Se1W1
Organometallics (2015) 34, 1 361
a=12.8279(3)Å b=16.7109(4)Å c=17.7083(4)Å
α=101.538(2)° β=105.856(2)° γ=110.987(2)°
C61H57B1N6O2P2Ru1W1
C61H57B1N6O2P2Ru1W1
Organometallics (2015) 34, 1 361
a=19.5256(4)Å b=11.5909(2)Å c=25.6190(5)Å
α=90° β=110.124(2)° γ=90°
C30H52BClN6NiO2P2W
C30H52BClN6NiO2P2W
Organometallics (2012) 31, 7 2538
a=33.8516(4)Å b=13.9440(2)Å c=16.3341(2)Å
α=90° β=104.0118(7)° γ=90°
C30H52B1Cl1N6Ni1O2P2W1
C30H52B1Cl1N6Ni1O2P2W1
Organometallics (2012) 31, 7 2538
a=10.6496(1)Å b=17.6512(2)Å c=20.4901(2)Å
α=90° β=90° γ=90°