Structures by: Luo X.
Total: 187
Di-μ-methacrylato-O:O-bis[(1,10-phenanthroline-N,N')bis(methacrylato-O,O') ytterbium(III)]
C48H46N4O12Yb2
Acta Crystallographica Section C (1999) 55, 9 1472-1475
a=10.182(4)Å b=9.707(5)Å c=23.455(8)Å
α=90.° β=101.48(3)° γ=90.°
Catena-Poly[[diaquanickel(II)]-bis[μ-(4-pyridylsulfanyl)acetato- κ<sup>2</sup>N:O;κ<sup>2</sup>O:N]]
C14H16N2NiO6S2
Acta Crystallographica Section E (2007) 63, 6 m1745-m1745
a=8.9232(9)Å b=10.6901(10)Å c=8.8887(9)Å
α=90.00° β=90.378(3)° γ=90.00°
(<i>E</i>)-Methyl 3-(3,4-dihydroxyphenyl)acrylate
C10H10O4
Acta Crystallographica Section E (2011) 67, 2 o354
a=5.129(5)Å b=9.969(8)Å c=10.586(9)Å
α=117.627(7)° β=97.924(11)° γ=94.322(11)°
(2-Chloro-3,5-dinitrophenyl)(piperidin-1-yl)methanone
C12H12ClN3O5
Acta Crystallographica Section E (2011) 67, 5 o1066
a=10.7864(3)Å b=11.1264(3)Å c=21.9775(5)Å
α=90.00° β=90.00° γ=90.00°
Trichlorido-1κ^2^<i>Cl</i>,2κ<i>Cl</i>-(2,6-dimethylphenolato-2κ<i>O</i>)- μ-oxido-bis{1,2(η^5^)-2,3,4,5-tetramethyl-1-[4- (trimethylsilyl)phenyl]cyclopentadienyl}dititanium(IV)
C44H59Cl3O2Si2Ti2
Acta Crystallographica Section E (2011) 67, 10 m1355
a=11.405(2)Å b=12.949(3)Å c=18.132(4)Å
α=104.19(3)° β=101.13(3)° γ=108.96(3)°
1,3,5-Tris(4-methoxyphenyl)-1,3,5-triazinane-2,4,6-trione
C24H21N3O6
Acta Crystallographica Section E (2014) 70, 2 o118
a=13.2008(14)Å b=13.2008(14)Å c=26.695(3)Å
α=90.00° β=90.00° γ=120.00°
<i>N</i>,<i>N</i>'-Bis(2,6-diethylphenyl)acenaphthylene-1,2-diimine
C32H32N2
Acta Crystallographica Section E (2012) 68, 1 o128
a=13.5134(12)Å b=8.6952(8)Å c=22.3532(19)Å
α=90.00° β=99.4130(10)° γ=90.00°
GeHgSe4Sr
GeHgSe4Sr
Chemistry of Materials (2019) 31, 8 3034
a=10.8375(7)Å b=10.7456(6)Å c=6.6377(4)Å
α=90.00° β=90.00° γ=90.00°
BaGeHgSe4
BaGeHgSe4
Chemistry of Materials (2019) 31, 8 3034
a=11.255(2)Å b=11.033(2)Å c=6.6847(13)Å
α=90.00° β=90.00° γ=90.00°
C36H43Mo12N6O41PZn4
C36H43Mo12N6O41PZn4
ACS Applied Energy Materials (2018) 1, 9 4931
a=22.711(3)Å b=22.711(3)Å c=13.3033(19)Å
α=90° β=90° γ=120°
C36H43Mo12N6O41PZn4
C36H43Mo12N6O41PZn4
ACS Applied Energy Materials (2018) 1, 9 4931
a=22.777(8)Å b=22.777(8)Å c=13.338(5)Å
α=90° β=90° γ=120°
C14H6Br2N
C14H6Br2N
ACS nano (2018) 12, 1 852-860
a=3.9742(2)Å b=19.4868(11)Å c=14.9127(7)Å
α=90° β=92.426(3)° γ=90°
C17H7Br2N2
C17H7Br2N2
ACS nano (2018) 12, 1 852-860
a=3.8581(2)Å b=10.5438(6)Å c=16.1258(9)Å
α=96.687(3)° β=96.766(2)° γ=95.701(2)°
CoLa2MnO6
CoLa2MnO6
ACS applied materials & interfaces (2019) 11, 39 35720-35728
a=5.5082Å b=5.4369Å c=7.7368Å
α=90° β=90.05° γ=90°
C34H26N6O9Ru2,F6P
C34H26N6O9Ru2,F6P
ACS Catalysis (2018) 8, 5 4375
a=13.8587(8)Å b=23.8714(12)Å c=12.5805(9)Å
α=90° β=115.201(8)° γ=90°
C18H16N2O4S2
C18H16N2O4S2
ACS Applied Electronic Materials (2019) 1, 5 764
a=4.96243(19)Å b=7.6511(3)Å c=12.2057(5)Å
α=102.765(3)° β=92.376(2)° γ=106.291(3)°
C24H28N2O4S2
C24H28N2O4S2
ACS Applied Electronic Materials (2019) 1, 5 764
a=33.028(3)Å b=5.02936(18)Å c=14.9494(5)Å
α=90.0000° β=111.402(3)° γ=90.0000°
C30H28N6O2S2
C30H28N6O2S2
ACS Applied Electronic Materials (2019) 1, 5 764
a=9.2227(3)Å b=5.1146(2)Å c=29.4199(12)Å
α=90.0000° β=99.1713(18)° γ=90.0000°
C39H21Cu7I4N3O18
C39H21Cu7I4N3O18
Crystal Growth & Design (2015) 15, 10 4901
a=28.1563(7)Å b=28.1563(7)Å c=19.1585(7)Å
α=90.00° β=90.00° γ=120.00°
C46H56Cu8I4N10O23
C46H56Cu8I4N10O23
Crystal Growth & Design (2015) 15, 10 4901
a=19.209(3)Å b=19.209(3)Å c=10.991(2)Å
α=90° β=90° γ=90°
C63H84Cu7I4N11O23
C63H84Cu7I4N11O23
Crystal Growth & Design (2015) 15, 10 4901
a=27.538(4)Å b=27.538(4)Å c=20.139(4)Å
α=90° β=90° γ=120°
C25H9BF15NO
C25H9BF15NO
ACS Catalysis (2019) 9, 9 8397
a=15.7548(2)Å b=8.52180(10)Å c=17.5186(2)Å
α=90° β=91.1950(10)° γ=90°
C25.75H22.75Cu2IN5.25O5.25
C25.75H22.75Cu2IN5.25O5.25
Crystal Growth & Design (2015) 15, 2 915
a=40.979(4)Å b=40.979(4)Å c=16.064(3)Å
α=90.00° β=90.00° γ=120.00°
C27H20ClNO4
C27H20ClNO4
The Journal of organic chemistry (2017)
a=6.8177(8)Å b=17.185(2)Å c=19.121(2)Å
α=90° β=90° γ=90°
C21H28BrNO
C21H28BrNO
The Journal of organic chemistry (2017) 82, 21 11391-11398
a=26.350(5)Å b=12.971(3)Å c=26.783(5)Å
α=90.00° β=117.97(3)° γ=90.00°
C20H18ClNO
C20H18ClNO
The Journal of organic chemistry (2017) 82, 21 11391-11398
a=7.6298(15)Å b=8.2139(16)Å c=13.786(3)Å
α=85.20(3)° β=78.12(3)° γ=89.03(3)°
C15H19NO7S
C15H19NO7S
The Journal of organic chemistry (2018) 83, 3 1538-1542
a=6.1668(3)Å b=20.6407(10)Å c=13.3138(7)Å
α=90° β=97.770(2)° γ=90°
C35H31NO2
C35H31NO2
The Journal of organic chemistry (2019) 84, 17 11186-11194
a=11.5493(3)Å b=14.4808(4)Å c=15.7452(4)Å
α=90° β=90° γ=90°
C19H18ClFN2O4
C19H18ClFN2O4
The Journal of organic chemistry (2017) 82, 20 11141-11149
a=5.7562(7)Å b=11.7478(14)Å c=27.370(3)Å
α=90° β=90° γ=90°
C20H25NO4
C20H25NO4
The Journal of organic chemistry (2016) 81, 18 8653-8658
a=10.6905(12)Å b=7.8348(9)Å c=11.6180(13)Å
α=90° β=102.791(2)° γ=90°
LCZ696-FILIPPA9-087-PHCH3
C60H84Cl4Mg4O12
The Journal of organic chemistry (2020)
a=19.113(5)Å b=17.823(5)Å c=19.861(6)Å
α=90.00° β=100.954(15)° γ=90.00°
2-bromoacrylic acid-PBP Ni(II)
C22H15BrN3NiO3.5
Journal of Organic Chemistry (2009) 74, 5656-5659
a=7.8758(7)Å b=19.0832(18)Å c=26.114(2)Å
α=90.00° β=93.238(2)° γ=90.00°
C10H10N2O4
C10H10N2O4
The Journal of organic chemistry (2014) 79, 3 1156
a=7.107(2)Å b=7.758(2)Å c=10.620(3)Å
α=75.924(5)° β=79.636(6)° γ=71.112(6)°
C22H16N2O4
C22H16N2O4
The Journal of organic chemistry (2014) 79, 3 1156
a=10.7714(11)Å b=7.8126(8)Å c=11.5206(12)Å
α=90.00° β=106.574(2)° γ=90.00°
C15H11N3OS
C15H11N3OS
The Journal of organic chemistry (2014) 79, 3 1156
a=8.1738(11)Å b=21.296(3)Å c=8.4023(11)Å
α=90.00° β=109.477(3)° γ=90.00°
2(C18H22BrNO4S)
2(C18H22BrNO4S)
Journal of Organic Chemistry (2012) 77, 8338-8343
a=7.5536(18)Å b=7.5571(18)Å c=16.888(4)Å
α=91.672(3)° β=98.728(3)° γ=102.127(3)°
C54H60Cl4Cr3N4
C54H60Cl4Cr3N4
Organometallics (2011) 30, 4 752
a=25.3449(17)Å b=12.1107(8)Å c=19.9733(14)Å
α=90.00° β=121.8020(10)° γ=90.00°
C63H64Cl4Cr3N4
C63H64Cl4Cr3N4
Organometallics (2011) 30, 4 752
a=24.9698(12)Å b=13.2003(6)Å c=20.3508(10)Å
α=90.00° β=119.3960(10)° γ=90.00°
C47H57Cl2CrLiN2O2
C47H57Cl2CrLiN2O2
Organometallics (2011) 30, 4 752
a=12.8943(10)Å b=11.0704(8)Å c=32.599(3)Å
α=90.00° β=95.471(2)° γ=90.00°
C28H31Cl2CrN2O
C28H31Cl2CrN2O
Organometallics (2011) 30, 4 752
a=8.2397(9)Å b=9.8919(11)Å c=16.2560(18)Å
α=77.252(2)° β=86.119(2)° γ=87.316(2)°
C37H49Cl4CrN2O
C37H49Cl4CrN2O
Organometallics (2011) 30, 4 752
a=9.3344(5)Å b=13.1536(8)Å c=16.5930(10)Å
α=101.3040(10)° β=102.0590(10)° γ=94.7220(10)°
C32H39Cl2CrN2O
C32H39Cl2CrN2O
Organometallics (2011) 30, 4 752
a=18.866(4)Å b=10.216(2)Å c=31.635(6)Å
α=90.00° β=92.74(3)° γ=90.00°
C37H42Cl4CrN2O2
C37H42Cl4CrN2O2
Organometallics (2011) 30, 20 5480
a=11.3604(7)Å b=15.8562(10)Å c=19.8159(13)Å
α=90.00° β=94.6470(10)° γ=90.00°
C69H74Cl6Cr2N4O
C69H74Cl6Cr2N4O
Organometallics (2011) 30, 20 5480
a=14.4480(9)Å b=15.1031(9)Å c=16.4755(10)Å
α=76.0280(10)° β=83.5910(10)° γ=69.2770(10)°
C76H88Cl4Cr2N4O
C76H88Cl4Cr2N4O
Organometallics (2011) 30, 20 5480
a=12.0344(11)Å b=36.717(3)Å c=19.4544(18)Å
α=90.00° β=105.749(2)° γ=90.00°
C50H49Cl8Cr2N2O4
C50H49Cl8Cr2N2O4
Organometallics (2011) 30, 20 5480
a=12.0980(5)Å b=13.5994(6)Å c=15.5225(7)Å
α=98.1970(10)° β=99.2150(10)° γ=97.5440(10)°
C24H29NO2S
C24H29NO2S
Journal of the American Chemical Society (2018)
a=9.5226(3)Å b=15.1939(6)Å c=14.7465(6)Å
α=90.00° β=99.662(4)° γ=90.00°
C24H23NO2S
C24H23NO2S
Journal of the American Chemical Society (2018)
a=10.2002(6)Å b=16.0175(8)Å c=12.8323(6)Å
α=90.00° β=105.396(6)° γ=90.00°
C41H57Cu6I4N11O3
C41H57Cu6I4N11O3
Journal of the American Chemical Society (2016) 138, 3 786-789
a=22.920(3)Å b=22.920(3)Å c=22.270(5)Å
α=90° β=90° γ=120°
C41H57Cu6I4N11O3
C41H57Cu6I4N11O3
Journal of the American Chemical Society (2016) 138, 3 786-789
a=22.220(3)Å b=22.220(3)Å c=22.487(5)Å
α=90.00° β=90.00° γ=120.00°
C41H57Cu6I4N11O3
C41H57Cu6I4N11O3
Journal of the American Chemical Society (2016) 138, 3 786-789
a=22.901(3)Å b=22.901(3)Å c=22.272(5)Å
α=90° β=90° γ=120°
2(C46H57N5Ni2),C7H8
2(C46H57N5Ni2),C7H8
Journal of the American Chemical Society (2018)
a=8.6475(7)Å b=22.8313(17)Å c=22.7875(16)Å
α=90° β=98.535(3)° γ=90°
C32H30F6N4Ni,0.146(C7H8),0.104(C5H12)
C32H30F6N4Ni,0.146(C7H8),0.104(C5H12)
Journal of the American Chemical Society (2018)
a=16.3481(3)Å b=22.1973(4)Å c=35.0360(7)Å
α=90° β=90° γ=90°
C66H84N6Ni2
C66H84N6Ni2
Journal of the American Chemical Society (2018)
a=12.0220(5)Å b=26.4576(8)Å c=18.2600(6)Å
α=90° β=97.465(3)° γ=90°
C24H18N6O3
C24H18N6O3
Journal of the American Chemical Society (2013) 135, 11684-11687
a=26.128(3)Å b=15.3480(15)Å c=15.9352(15)Å
α=90.00° β=126.412(5)° γ=90.00°
C16H10Fe2O8S2
C16H10Fe2O8S2
Inorganic Chemistry (2008) 47, 4545-4553
a=13.802(3)Å b=8.4531(17)Å c=17.059(4)Å
α=90.00° β=96.649(4)° γ=90.00°
C14H8Fe2O9S2
C14H8Fe2O9S2
Inorganic Chemistry (2008) 47, 4545-4553
a=8.7846(16)Å b=9.121(2)Å c=11.778(3)Å
α=78.677(8)° β=79.185(10)° γ=76.766(10)°
C14H8Fe2O8S3
C14H8Fe2O8S3
Inorganic Chemistry (2008) 47, 4545-4553
a=13.5497(17)Å b=8.2687(10)Å c=16.800(3)Å
α=90.00° β=98.085(5)° γ=90.00°
C20H15Fe2O6PS2
C20H15Fe2O6PS2
Inorganic Chemistry (2008) 47, 4545-4553
a=11.799(3)Å b=17.254(4)Å c=12.113(3)Å
α=90.00° β=115.785(4)° γ=90.00°
C8H5Cl2Fe2O6PS2
C8H5Cl2Fe2O6PS2
Inorganic Chemistry (2008) 47, 4545-4553
a=6.619(3)Å b=14.745(6)Å c=16.380(7)Å
α=90.00° β=99.272(7)° γ=90.00°
C8H5Br2Fe2O6PS2
C8H5Br2Fe2O6PS2
Inorganic Chemistry (2008) 47, 4545-4553
a=13.127(3)Å b=10.202(2)Å c=12.752(3)Å
α=90.00° β=107.935(4)° γ=90.00°
C9H4Fe2O7S2
C9H4Fe2O7S2
Inorganic Chemistry (2008) 47, 4545-4553
a=17.259(3)Å b=8.8183(12)Å c=18.165(3)Å
α=90.00° β=100.805(2)° γ=90.00°
C19H13Cl3Fe4O14S4
C19H13Cl3Fe4O14S4
Inorganic Chemistry (2008) 47, 4545-4553
a=15.122(4)Å b=6.9241(18)Å c=32.378(9)Å
α=90.00° β=99.132(5)° γ=90.00°
C44.5H49Cl3N4Zr
C44.5H49Cl3N4Zr
New J. Chem. (2016) 40, 3 2071
a=10.8808(13)Å b=11.2260(13)Å c=19.417(2)Å
α=100.183(2)° β=103.090(2)° γ=104.971(2)°
C73H78Cl6Cr2N4O
C73H78Cl6Cr2N4O
Dalton transactions (Cambridge, England : 2003) (2012) 41, 9 2755-2763
a=25.162(2)Å b=15.3030(14)Å c=18.2914(18)Å
α=90.00° β=110.053(2)° γ=90.00°
C22H21ClN2O5
C22H21ClN2O5
Chem.Commun. (2012) 48, 5175
a=12.6866(15)Å b=5.7581(7)Å c=14.9160(18)Å
α=90.00° β=113.145(2)° γ=90.00°
C49H92N2O6P4W2
C49H92N2O6P4W2
Inorganic Chemistry (1997) 36, 3341-3353
a=13.676(3)Å b=13.833(2)Å c=16.447(4)Å
α=70.80(2)° β=84.90(2)° γ=71.64(2)°
Trans, mer bis(tricyclohexanophosphine)tricarbonylethylenetungsten
W,3(CO),2(C18H33P),(C2H4)
Inorganic Chemistry (1997) 36, 3341-3353
a=11.250(5)Å b=12.716(6)Å c=14.458(6)Å
α=87.01(4)° β=81.03(3)° γ=74.04(3)°
Tri-isopropylphosphinetricarbonylhydridetungsten dimer μ-diphenylsilane
W,3(CO),(C9H21P),H,(C12H10Si)
Inorganic Chemistry (1997) 36, 3341-3353
a=15.760(2)Å b=17.427(2)Å c=17.957(2)Å
α=90.00° β=90.390(8)° γ=90.00°
C44H58N2O2Ti
C44H58N2O2Ti
Inorganic Chemistry (2011) 50, 30-36
a=19.693(4)Å b=10.332(2)Å c=21.767(4)Å
α=90.00° β=116.54(3)° γ=90.00°
C59H71Cl2N3OTi
C59H71Cl2N3OTi
Inorganic Chemistry (2011) 50, 30-36
a=11.2356(8)Å b=12.8590(9)Å c=18.0523(13)Å
α=88.2330(10)° β=82.7220(10)° γ=82.5740(10)°
C160H212N8O8Ti4
C160H212N8O8Ti4
Inorganic Chemistry (2011) 50, 30-36
a=12.937(3)Å b=19.908(4)Å c=14.199(3)Å
α=90.00° β=102.68(3)° γ=90.00°
C8H28Be3N2O12P4
C8H28Be3N2O12P4
Inorganic Chemistry (2011) 50, 8697-8699
a=31.3790(5)Å b=31.3790(5)Å c=12.6840(2)Å
α=90.00° β=90.00° γ=120.00°
C51H74Cl4N2O5Ti
C51H74Cl4N2O5Ti
Organometallics (2013) 32, 21 6277
a=14.3412(9)Å b=15.0835(10)Å c=15.4859(10)Å
α=63.1720(10)° β=64.1380(10)° γ=63.8390(10)°
C31H38Cl2N2OTi
C31H38Cl2N2OTi
Organometallics (2013) 32, 21 6277
a=13.7125(11)Å b=24.933(2)Å c=9.2754(8)Å
α=90.00° β=109.77° γ=90.00°
C41H54Cl2N2OTi
C41H54Cl2N2OTi
Organometallics (2013) 32, 21 6277
a=12.7757(9)Å b=13.0183(9)Å c=13.8898(10)Å
α=63.5470(10)° β=68.4890(10)° γ=75.2090(10)°
C37H44Cl2N2OTi
C37H44Cl2N2OTi
Organometallics (2013) 32, 21 6277
a=10.3564(6)Å b=13.2157(7)Å c=13.6182(7)Å
α=76.3530(10)° β=68.4940(10)° γ=89.9980(10)°
C35H17Cu2N3O11
C35H17Cu2N3O11
Inorganic Chemistry Frontiers (2018) 5, 9 2355
a=36.244(8)Å b=36.244(8)Å c=36.244(8)Å
α=90° β=90° γ=90°
C12H13N5O3Zn
C12H13N5O3Zn
Inorganic Chemistry Frontiers (2017) 4, 11 1888
a=8.0423(4)Å b=10.5269(4)Å c=32.6069(14)Å
α=90° β=90° γ=90°
C66.5H76.5Co2F6N13.5O11Si
C66.5H76.5Co2F6N13.5O11Si
Inorganic Chemistry (2017)
a=21.879(2)Å b=23.701(3)Å c=19.687(2)Å
α=90° β=90° γ=90°
C50H43Fe2O5P2S2
C50H43Fe2O5P2S2
Organometallics (2012) 31, 8 3324
a=19.185(4)Å b=14.329(3)Å c=17.050(3)Å
α=90.00° β=111.33(3)° γ=90.00°
C28H28Fe2N2O6S2
C28H28Fe2N2O6S2
Organometallics (2012) 31, 8 3324
a=12.827(3)Å b=13.963(3)Å c=17.082(3)Å
α=90.00° β=110.78(3)° γ=90.00°
C40H36Fe2O5P2S2
C40H36Fe2O5P2S2
Organometallics (2012) 31, 8 3324
a=11.158(12)Å b=22.76(2)Å c=14.644(15)Å
α=90.00° β=97.067(14)° γ=90.00°
C29H26Cl2Fe2O6PS2
C29H26Cl2Fe2O6PS2
Organometallics (2012) 31, 8 3324
a=11.922(2)Å b=12.398(3)Å c=12.817(3)Å
α=84.903(17)° β=67.969(12)° γ=66.568(13)°
C35H39Fe2O6.5P2S2
C35H39Fe2O6.5P2S2
Organometallics (2012) 31, 8 3324
a=9.0684(18)Å b=37.231(7)Å c=11.977(2)Å
α=90.00° β=103.17(3)° γ=90.00°
C32H44Cu4I4N4
C32H44Cu4I4N4
The journal of physical chemistry letters (2020) 1255-1260
a=7.54153(19)Å b=12.0777(4)Å c=45.1161(16)Å
α=90° β=90° γ=90°
C32H44Cu4I4N4
C32H44Cu4I4N4
The journal of physical chemistry letters (2020) 1255-1260
a=7.54722(4)Å b=12.06809(5)Å c=45.0822(2)Å
α=90° β=90° γ=90°