Structures by: Nakano M.
Total: 196
2(C7H4S)
2(C7H4S)
Chemical Science (2020) 11, 6 1573-1580
a=5.8903(3)Å b=7.8065(4)Å c=11.6922(6)Å
α=90.458(3)° β=101.223(3)° γ=93.037(3)°
C16H12S4
C16H12S4
Chemical Science (2020) 11, 6 1573-1580
a=7.6311(3)Å b=17.4783(7)Å c=5.2771(2)Å
α=90.0000° β=91.180(3)° γ=90.0000°
C26H25Cl8NO4Sb
C26H25Cl8NO4Sb
Chemical Science (2020) 11, 19 5082-5088
a=11.6398(8)Å b=18.4868(13)Å c=16.2027(11)Å
α=90° β=109.070(3)° γ=90°
C14H17BrO4
C14H17BrO4
Chemical Science (2020) 11, 19 5082-5088
a=21.874(5)Å b=15.366(3)Å c=8.915(3)Å
α=90° β=90° γ=90°
C32H33F6NO4
C32H33F6NO4
Chemical Science (2020) 11, 19 5082-5088
a=10.0890(4)Å b=11.8293(5)Å c=13.7884(6)Å
α=97.5670(10)° β=107.7540(10)° γ=95.2740(10)°
C26H25Cl2NO4
C26H25Cl2NO4
Chemical Science (2020) 11, 19 5082-5088
a=18.3830(16)Å b=13.3271(12)Å c=20.1022(18)Å
α=90° β=90° γ=90°
C28H31NO6
C28H31NO6
Chemical Science (2020) 11, 19 5082-5088
a=10.3036(6)Å b=18.9257(11)Å c=13.0352(7)Å
α=90° β=94.843(2)° γ=90°
C28H25F6NO4
C28H25F6NO4
Chemical Science (2020) 11, 19 5082-5088
a=11.7241(3)Å b=12.3047(3)Å c=18.3432(5)Å
α=90° β=100.0770(10)° γ=90°
C30H33Cl2NO4
C30H33Cl2NO4
Chemical Science (2020) 11, 19 5082-5088
a=11.840(2)Å b=14.543(3)Å c=18.231(3)Å
α=97.047(3)° β=105.059(3)° γ=102.364(3)°
C30H33Cl8NO4Sb
C30H33Cl8NO4Sb
Chemical Science (2020) 11, 19 5082-5088
a=12.156(3)Å b=15.548(3)Å c=19.482(4)Å
α=90° β=90.770(4)° γ=90°
C32H38N2O2S3
C32H38N2O2S3
Organic Chemistry Frontiers (2017) 4, 5 704
a=20.4770(9)Å b=5.2589(2)Å c=28.0402(12)Å
α=90° β=101.0066(19)° γ=90°
C16H17CoN7O8
C16H17CoN7O8
Nature Communications (2015) 6, 8810
a=9.8515(18)Å b=25.892(5)Å c=8.1511(15)Å
α=90.00° β=100.820(2)° γ=90.00°
C16H17CoN7O8
C16H17CoN7O8
Nature Communications (2015) 6, 8810
a=9.804(4)Å b=27.417(10)Å c=7.659(3)Å
α=90.00° β=100.030(5)° γ=90.00°
C16H17CoN7O8
C16H17CoN7O8
Nature Communications (2015) 6, 8810
a=9.796(2)Å b=27.433(6)Å c=7.5962(17)Å
α=90.00° β=100.288(5)° γ=90.00°
C16H17CoN7O8
C16H17CoN7O8
Nature Communications (2015) 6, 8810
a=9.794(3)Å b=27.475(9)Å c=7.548(3)Å
α=90.00° β=100.433(8)° γ=90.00°
C16H17CoN7O8
C16H17CoN7O8
Nature Communications (2015) 6, 8810
a=9.7948(18)Å b=27.435(5)Å c=7.5979(15)Å
α=90.00° β=100.265(5)° γ=90.00°
C16H17CoN7O8
C16H17CoN7O8
Nature Communications (2015) 6, 8810
a=9.7984(18)Å b=27.410(5)Å c=7.6404(16)Å
α=90.00° β=100.082(4)° γ=90.00°
C16H17CoN7O8
C16H17CoN7O8
Nature Communications (2015) 6, 8810
a=9.8458(15)Å b=25.898(4)Å c=8.1434(14)Å
α=90.00° β=100.839(3)° γ=90.00°
C16H17CoN7O8
C16H17CoN7O8
Nature Communications (2015) 6, 8810
a=9.8490(11)Å b=25.942(3)Å c=8.1610(9)Å
α=90.00° β=100.764(2)° γ=90.00°
C22H29CoN7O8
C22H29CoN7O8
Nature Communications (2015) 6, 8810
a=11.000(2)Å b=16.030(3)Å c=15.347(3)Å
α=90.00° β=106.744(5)° γ=90.00°
C18H23CoN7O9
C18H23CoN7O9
Nature Communications (2015) 6, 8810
a=8.0370(16)Å b=15.043(3)Å c=18.574(4)Å
α=90.537(6)° β=94.769(5)° γ=92.761(4)°
C17H19CoN7O8
C17H19CoN7O8
Nature Communications (2015) 6, 8810
a=9.699(3)Å b=27.857(9)Å c=7.707(2)Å
α=90.00° β=101.440(9)° γ=90.00°
C16H8D9N7O8Zn
C16H8D9N7O8Zn
Nature Communications (2015) 6, 8810
a=9.860(4)Å b=25.836(10)Å c=8.226(3)Å
α=90.00° β=102.973(10)° γ=90.00°
C16H8D9N7O8Zn
C16H8D9N7O8Zn
Nature Communications (2015) 6, 8810
a=9.871(2)Å b=26.022(6)Å c=8.286(2)Å
α=90.00° β=101.902(6)° γ=90.00°
C16H17N7O8Zn
C16H17N7O8Zn
Nature Communications (2015) 6, 8810
a=9.915(2)Å b=26.133(5)Å c=8.3197(17)Å
α=90.00° β=101.90(3)° γ=90.00°
C16H17CoN7O8
C16H17CoN7O8
Nature Communications (2015) 6, 8810
a=9.8591(12)Å b=26.027(3)Å c=8.1886(10)Å
α=90.00° β=100.676(3)° γ=90.00°
C16H17N7O8Zn
C16H17N7O8Zn
Nature Communications (2015) 6, 8810
a=9.801(2)Å b=27.120(5)Å c=7.7592(16)Å
α=90.00° β=101.09(3)° γ=90.00°
C16H17CoN7O8
C16H17CoN7O8
Nature Communications (2015) 6, 8810
a=9.865(2)Å b=25.934(6)Å c=8.172(2)Å
α=90.00° β=100.762(3)° γ=90.00°
C16H17CoN7O8
C16H17CoN7O8
Nature Communications (2015) 6, 8810
a=9.8533(13)Å b=25.995(3)Å c=8.1782(10)Å
α=90.00° β=100.741(2)° γ=90.00°
C450H548B24F18Fe42N240O88S6
C450H548B24F18Fe42N240O88S6
Nature Communications (2015) 6, 5955
a=30.7679(13)Å b=30.7679(13)Å c=30.7679(13)Å
α=90.00° β=90.00° γ=90.00°
C450H492B24F18Fe42N240O60S6
C450H492B24F18Fe42N240O60S6
Nature Communications (2015) 6, 5955
a=30.8314(16)Å b=30.8314(16)Å c=30.8314(16)Å
α=90.00° β=90.00° γ=90.00°
C14H10N2Na2O11
C14H10N2Na2O11
Chemistry Central Journal (2012) 6, 57
a=7.60872(14)Å b=10.09635(18)Å c=11.4337(2)Å
α=72.858(5)° β=88.015(7)° γ=82.627(6)°
C46H30N4O2,2(CH2Cl2)
C46H30N4O2,2(CH2Cl2)
Organic Letters (2013) 15, 14 3594
a=11.5480(6)Å b=18.7363(9)Å c=18.7916(9)Å
α=90.00° β=106.2962(7)° γ=90.00°
TIPS-Bpin-BDT
C40H68B2O4S2Si2
Organic letters (2012) 14, 21 5448-5451
a=12.3238(9)Å b=13.3375(7)Å c=14.9419(11)Å
α=90.00° β=113.6966(10)° γ=90.00°
TIPS-Bpin-BDF
C40H68B2O6Si2
Organic letters (2012) 14, 21 5448-5451
a=7.7423(18)Å b=11.828(3)Å c=12.677(3)Å
α=73.699(7)° β=86.956(7)° γ=83.755(7)°
TIPS-Bpin-BDS
C40H68B2O4Se2Si2
Organic letters (2012) 14, 21 5448-5451
a=12.433(8)Å b=13.331(8)Å c=14.725(10)Å
α=90.00° β=113.371(2)° γ=90.00°
C68H50,2(C7H8)
C68H50,2(C7H8)
Organic letters (2007) 9, 1 81-84
a=16.109(7)Å b=9.036(3)Å c=19.383(8)Å
α=90.000(7)° β=94.544(7)° γ=90.000(7)°
(C36H36Cl3Mn4N6O6)2,2(ClO4)
(C36H36Cl3Mn4N6O6)2,2(ClO4)
Inorganic Chemistry (2005) 44, 3377-3379
a=11.643(6)Å b=11.702(6)Å c=17.890(9)Å
α=72.939(11)° β=74.285(9)° γ=70.911(19)°
C70H76N4O8S2
C70H76N4O8S2
Chemical communications (Cambridge, England) (2020) 56, 82 12343-12346
a=33.803(7)Å b=13.242(3)Å c=13.405(3)Å
α=90° β=108.746(3)° γ=90°
C92H90N8O16
C92H90N8O16
Chemical communications (Cambridge, England) (2019) 55, 20 2992-2995
a=13.051(14)Å b=18.73(2)Å c=19.67(2)Å
α=90° β=90.889(10)° γ=90°
C96H92F12N8O28S4
C96H92F12N8O28S4
Chemical communications (Cambridge, England) (2019) 55, 20 2992-2995
a=33.668(2)Å b=33.668(2)Å c=33.668(2)Å
α=90° β=90° γ=90°
C32H38N2O4S
C32H38N2O4S
Journal of Materials Chemistry C (2016) 4, 8879-8883
a=21.7114(4)Å b=4.96590(10)Å c=26.7513(5)Å
α=90.00° β=90.2752(9)° γ=90.00°
C36H24Cu2N12O4
C36H24Cu2N12O4
CrystEngComm (2019) 21, 12 1886
a=23.2726(12)Å b=9.8774(4)Å c=15.2044(7)Å
α=90.0000° β=112.3013(15)° γ=90.0000°
C38H28Cu2N12O4
C38H28Cu2N12O4
CrystEngComm (2019) 21, 12 1886
a=8.1083(5)Å b=10.3884(6)Å c=11.9430(8)Å
α=108.3940(19)° β=95.407(2)° γ=108.6530(14)°
C62H36Cu4N22O2,2(C5N3O)
C62H36Cu4N22O2,2(C5N3O)
CrystEngComm (2019) 21, 12 1886
a=10.989(3)Å b=28.100(6)Å c=11.059(3)Å
α=90.0000° β=109.434(2)° γ=90.0000°
C42H36N4S2
C42H36N4S2
Journal of Materials Chemistry C (2015) 3, 283-290
a=7.2133(2)Å b=14.5623(4)Å c=16.4041(5)Å
α=91.618(7)° β=97.367(7)° γ=98.760(7)°
C58H78Cl2Mn4N8O26
C58H78Cl2Mn4N8O26
Chemical Communications (1999) 9 783
a=11.914(4)Å b=15.342(5)Å c=9.660(3)Å
α=104.577(17)° β=93.422(17)° γ=106.063(15)°
C37H30N4O4Zn
C37H30N4O4Zn
Chemical communications (Cambridge, England) (2017) 53, 26 3657-3660
a=8.5635(3)Å b=34.049(1)Å c=10.7218(3)Å
α=90° β=102.222(3)° γ=90°
Zn(DPATpy)(OAc)2
C38H34N4O5Zn
Chemical communications (Cambridge, England) (2017) 53, 26 3657-3660
a=9.217(4)Å b=33.638(14)Å c=10.663(5)Å
α=90.0000° β=100.141(7)° γ=90.0000°
Bis(u-sulfato-k2O)bis(4'-(4-diphenylaminophenyl)-2,2':6',2''-terpyridine-k3N)dizinc
C68H56N8O10S2Zn2
Chemical communications (Cambridge, England) (2017) 53, 26 3657-3660
a=18.840(5)Å b=15.678(4)Å c=20.073(6)Å
α=90.0000° β=97.206(4)° γ=90.0000°
C38H52CoN10O6,C4H10O
C38H52CoN10O6,C4H10O
Chemical Communications (2004) 15 1750-1751
a=11.892(4)Å b=18.244(7)Å c=11.950(3)Å
α=90° β=64.19(2)° γ=90°
C52H58Mn6N12O24
C52H58Mn6N12O24
Chemical communications (Cambridge, England) (2010) 46, 31 5716-5718
a=10.0446(5)Å b=22.3020(12)Å c=13.3085(7)Å
α=90.00° β=90.1650(10)° γ=90.00°
C40H38CoF12N6O4
C40H38CoF12N6O4
Dalton Transactions (2008) 11 1418-1420
a=11.1742(7)Å b=21.3708(15)Å c=18.4941(11)Å
α=90.0000° β=101.7170(17)° γ=90.0000°
C27H32CoN8OS2
C27H32CoN8OS2
Dalton Transactions (2008) 11 1418-1420
a=11.8634(7)Å b=12.1032(9)Å c=12.5051(8)Å
α=115.1366(17)° β=90.7389(17)° γ=113.5048(18)°
C77H118Cl6Cu5N16O38
C77H118Cl6Cu5N16O38
Dalton transactions (Cambridge, England : 2003) (2017) 46, 4 1237-1248
a=12.0191(2)Å b=15.0776(2)Å c=15.5604(2)Å
α=63.8858(6)° β=86.7571(7)° γ=85.2352(7)°
C100H118Cl10Cu8N16O42
C100H118Cl10Cu8N16O42
Dalton transactions (Cambridge, England : 2003) (2017) 46, 4 1237-1248
a=12.8590(12)Å b=15.8190(15)Å c=16.8926(16)Å
α=116.752(2)° β=91.136(2)° γ=96.267(2)°
C136H138Cl2Cu12N34O29
C136H138Cl2Cu12N34O29
Dalton transactions (Cambridge, England : 2003) (2017) 46, 4 1237-1248
a=31.219(2)Å b=15.7907(11)Å c=29.2134(19)Å
α=90° β=100.1820(10)° γ=90°
Diazido bis(1,2-bis(2-pyridyl)ethylene)cobalt(ii)
C12H10CoN8
Dalton transactions (Cambridge, England : 2003) (2011) 40, 6 1254-1260
a=8.2902(17)Å b=8.3224(17)Å c=10.284(2)Å
α=87.99(3)° β=67.88(3)° γ=79.07(3)°
Diaqua hexaazido bis(1,2-bis(2-pyridyl)ethylene) tricobalt(ii)(1,2-bis(2-pyridyl)ethylene)
C36H34Co3N24O2
Dalton transactions (Cambridge, England : 2003) (2011) 40, 6 1254-1260
a=8.8038(18)Å b=11.541(2)Å c=12.422(3)Å
α=117.61(3)° β=100.91(3)° γ=96.17(3)°
C36H48Co3N30O6
C36H48Co3N30O6
Dalton transactions (Cambridge, England : 2003) (2014) 43, 1 47-50
a=12.2143(13)Å b=13.8051(15)Å c=16.5293(17)Å
α=90.00° β=90.00° γ=90.00°
C31H42CuN3O4
C31H42CuN3O4
Dalton transactions (Cambridge, England : 2003) (2013) 42, 7 2438-2444
a=13.6036(4)Å b=11.5230(4)Å c=19.6796(6)Å
α=90.0000° β=106.8925(8)° γ=90.0000°
C72H86BCeI2N4O12Zn2
C72H86BCeI2N4O12Zn2
Dalton transactions (Cambridge, England : 2003) (2013) 42, 8 2683-2686
a=13.3226(15)Å b=33.654(4)Å c=17.056(2)Å
α=90.00° β=108.3840(11)° γ=90.00°
C72H86BBr2N4O12TbZn2
C72H86BBr2N4O12TbZn2
Dalton transactions (Cambridge, England : 2003) (2013) 42, 6 1987-1990
a=13.421(2)Å b=33.281(6)Å c=16.773(3)Å
α=90.00° β=108.518(2)° γ=90.00°
C40.50H63ClCuN4O4
C40.50H63ClCuN4O4
Dalton transactions (Cambridge, England : 2003) (2013) 42, 7 2438-2444
a=40.5296(17)Å b=9.2215(4)Å c=24.1373(9)Å
α=90.0000° β=112.2690(14)° γ=90.0000°
C115.50H116B2FeMn2N10O9.50
C115.50H116B2FeMn2N10O9.50
Dalton transactions (Cambridge, England : 2003) (2012) 41, 44 13691-13696
a=14.917(5)Å b=15.623(6)Å c=24.728(10)Å
α=86.701(17)° β=75.468(15)° γ=61.703(9)°
Di(2-aminopyrazine)-tetraaqua cobalt(ii) hexaaqua cobalt(ii) disulfate dihydrate
C8H34Co2N6O20S2
Dalton transactions (Cambridge, England : 2003) (2010) 39, 35 8161-8167
a=6.5697(4)Å b=8.3236(5)Å c=13.2130(8)Å
α=75.8320(10)° β=78.6140(10)° γ=78.8290(10)°
Di(2-aminopyrazine)-tetraaqua iron(ii) hexaaqua iron(ii) disulfate dihydrate
C8H34Fe2N6O20S2
Dalton transactions (Cambridge, England : 2003) (2010) 39, 35 8161-8167
a=6.5726(4)Å b=8.3984(5)Å c=13.2221(8)Å
α=75.6230(10)° β=78.3380(10)° γ=78.7860(10)°
Di(2-aminopyrazine)-tetraaqua cobalt(ii) hexaaqua iron(ii) disulfate dihydrate
C8H34CoFeN6O20S2
Dalton transactions (Cambridge, England : 2003) (2010) 39, 35 8161-8167
a=6.5742(4)Å b=8.3548(5)Å c=13.2410(8)Å
α=75.6760(10)° β=78.5020(10)° γ=78.8140(10)°
Mu-2-aminopyrazine-diaqua-mu-sulfato cadmium(ii) monohydrate
C4H10CdN3O6S
Dalton transactions (Cambridge, England : 2003) (2010) 39, 35 8161-8167
a=19.4038(4)Å b=7.3913(4)Å c=6.6216(3)Å
α=90.00° β=106.7190(10)° γ=90.00°
C58H54Cl10N16Ni5O2,2(C2H8N)
C58H54Cl10N16Ni5O2,2(C2H8N)
Dalton transactions (Cambridge, England : 2003) (2014) 43, 8 3044-3047
a=15.7038(12)Å b=9.9564(7)Å c=23.8274(18)Å
α=90.00° β=93.4680(10)° γ=90.00°
C66H74Br10N16Ni6O4
C66H74Br10N16Ni6O4
Dalton transactions (Cambridge, England : 2003) (2014) 43, 8 3044-3047
a=11.9623(7)Å b=13.3874(8)Å c=14.2964(9)Å
α=65.3520(10)° β=72.9400(10)° γ=75.1400(10)°
C66H65BN5O12TbZn2
C66H65BN5O12TbZn2
Dalton transactions (Cambridge, England : 2003) (2012) 41, 44 13640-13648
a=18.335(4)Å b=9.5267(18)Å c=34.804(7)Å
α=90.00° β=95.830(3)° γ=90.00°
C66H65BHoN5O12Zn2
C66H65BHoN5O12Zn2
Dalton transactions (Cambridge, England : 2003) (2012) 41, 44 13640-13648
a=18.367(2)Å b=9.5447(11)Å c=34.800(4)Å
α=90.00° β=95.8459(12)° γ=90.00°
C66H65BN5O12TmZn2
C66H65BN5O12TmZn2
Dalton transactions (Cambridge, England : 2003) (2012) 41, 44 13640-13648
a=18.3746(18)Å b=9.5525(9)Å c=34.799(4)Å
α=90.00° β=95.795(2)° γ=90.00°
C66H65BN5O12YbZn2
C66H65BN5O12YbZn2
Dalton transactions (Cambridge, England : 2003) (2012) 41, 44 13640-13648
a=18.360(3)Å b=9.5339(14)Å c=34.750(5)Å
α=90.00° β=95.7600(16)° γ=90.00°
C16H36N1,C16H36N1,C52H84PtS162
C16H36N1,C16H36N1,C52H84PtS162
Journal of Materials Chemistry (1999) 9, 10 2413
a=12.416(2)Å b=22.881(4)Å c=9.315(2)Å
α=99.93(2)° β=101.19(2)° γ=83.39(1)°
C40H39CeN8O11S2Zn2
C40H39CeN8O11S2Zn2
Dalton transactions (Cambridge, England : 2003) (2015) 44, 41 18276-18283
a=12.0836(19)Å b=12.587(2)Å c=16.363(3)Å
α=87.699(8)° β=69.461(5)° γ=70.611(6)°
C40H39N8O11PrS2Zn2
C40H39N8O11PrS2Zn2
Dalton transactions (Cambridge, England : 2003) (2015) 44, 41 18276-18283
a=12.0853(11)Å b=12.5724(14)Å c=16.3404(17)Å
α=87.928(4)° β=69.558(3)° γ=70.611(3)°
C40H39N8NdO11S2Zn2
C40H39N8NdO11S2Zn2
Dalton transactions (Cambridge, England : 2003) (2015) 44, 41 18276-18283
a=12.0855(19)Å b=12.552(2)Å c=16.340(3)Å
α=87.999(6)° β=69.453(5)° γ=70.683(5)°
C40H39N8O11S2SmZn2
C40H39N8O11S2SmZn2
Dalton transactions (Cambridge, England : 2003) (2015) 44, 41 18276-18283
a=12.0861(12)Å b=12.5205(15)Å c=16.3338(18)Å
α=88.163(5)° β=69.476(4)° γ=70.607(3)°
C39H37.5N7.5O11S2TbZn2
C39H37.5N7.5O11S2TbZn2
Dalton transactions (Cambridge, England : 2003) (2015) 44, 41 18038-18048
a=10.927(2)Å b=14.410(3)Å c=14.891(3)Å
α=75.505(6)° β=73.136(7)° γ=73.193(7)°
C39H37.5DyN7.5O11S2Zn2
C39H37.5DyN7.5O11S2Zn2
Dalton transactions (Cambridge, England : 2003) (2015) 44, 41 18038-18048
a=10.9200(11)Å b=14.4384(15)Å c=14.8871(15)Å
α=75.644(4)° β=73.117(4)° γ=73.178(4)°
C40H39LaN8O11S2Zn2
C40H39LaN8O11S2Zn2
Dalton transactions (Cambridge, England : 2003) (2015) 44, 41 18038-18048
a=12.0878(15)Å b=12.6225(18)Å c=16.365(3)Å
α=87.529(7)° β=69.440(5)° γ=70.545(5)°
C40H39N8O11S2Tb0.89Zn2
C40H39N8O11S2Tb0.89Zn2
Dalton transactions (Cambridge, England : 2003) (2015) 44, 41 18038-18048
a=12.0866(11)Å b=12.5910(14)Å c=16.3433(19)Å
α=87.765(5)° β=69.555(3)° γ=70.571(4)°
C40H39Dy0.89N8O11S2Zn2
C40H39Dy0.89N8O11S2Zn2
Dalton transactions (Cambridge, England : 2003) (2015) 44, 41 18038-18048
a=12.0861(14)Å b=12.5884(17)Å c=16.352(2)Å
α=87.747(5)° β=69.486(4)° γ=70.587(4)°
C20H14S4
C20H14S4
Chemical Science (2020) 11, 6 1573-1580
a=7.45474(15)Å b=16.2651(3)Å c=6.76866(16)Å
α=90° β=90.980(2)° γ=90°
DC-NDTI8
C17H18S1O2N1Cl1
Chemistry of Materials (2015) 27, 18 6418
a=5.3741(11)Å b=8.3251(16)Å c=18.155(3)Å
α=93.296(10)° β=93.705(10)° γ=98.532(10)°
C48H44F6N2O4S2
C48H44F6N2O4S2
Chemistry of Materials (2015) 27, 18 6418
a=4.7594(16)Å b=13.444(3)Å c=16.816(6)Å
α=107.754(14)° β=95.034(16)° γ=90.919(19)°
C8H24I4N2Sn
C8H24I4N2Sn
Chemistry of Materials (2007) 19, 25 6312
a=8.814(2)Å b=8.591(2)Å c=27.644(5)Å
α=90° β=90° γ=90°
C8H24I4N2Sn
C8H24I4N2Sn
Chemistry of Materials (2007) 19, 25 6312
a=8.9315(7)Å b=26.023(3)Å c=8.4082(7)Å
α=90° β=90° γ=90°
C16H24I4N2Sn
C16H24I4N2Sn
Chemistry of Materials (2007) 19, 25 6312
a=32.299(4)Å b=6.1042(7)Å c=6.1378(7)Å
α=90° β=93.961(4)° γ=90°
C16H32I4N2O4Sn
C16H32I4N2O4Sn
Chemistry of Materials (2007) 19, 25 6312
a=36.695(1)Å b=8.5068(3)Å c=8.7454(2)Å
α=90° β=90° γ=90°
C8H22I6N2Sn
C8H22I6N2Sn
Chemistry of Materials (2007) 19, 25 6312
a=8.950(1)Å b=8.392(1)Å c=15.393(2)Å
α=90° β=92.268(3)° γ=90°
C8H20I4N2O4Sn
C8H20I4N2O4Sn
Chemistry of Materials (2007) 19, 25 6312
a=8.8871(3)Å b=9.2148(3)Å c=24.1897(9)Å
α=90° β=90° γ=90°
C7H16I4N2Sn
C7H16I4N2Sn
Chemistry of Materials (2007) 19, 25 6312
a=6.4411(4)Å b=20.729(1)Å c=12.7965(8)Å
α=90° β=95.600(2)° γ=90°
C10H10I6N2Sn
C10H10I6N2Sn
Chemistry of Materials (2007) 19, 25 6312
a=8.7310(4)Å b=25.416(1)Å c=9.5516(6)Å
α=90° β=90° γ=90°
C42H34
C42H34
Journal of the American Chemical Society (2019) 141, 1 560-571
a=8.14110(15)Å b=25.1404(5)Å c=14.1594(3)Å
α=90.0000° β=90.0000° γ=90.0000°
C34H32
C34H32
Journal of the American Chemical Society (2017) 139, 43 15284-15287
a=12.9410(7)Å b=12.5206(8)Å c=16.3057(10)Å
α=90.0000° β=106.1641(16)° γ=90.0000°
C72.5H69Cl
C72.5H69Cl
Journal of the American Chemical Society (2017) 139, 43 15284-15287
a=8.05357(15)Å b=16.8194(3)Å c=21.1151(4)Å
α=77.4803(7)° β=89.0213(7)° γ=79.9661(7)°
C36H34
C36H34
Journal of the American Chemical Society (2017) 139, 43 15284-15287
a=22.1584(8)Å b=8.1173(3)Å c=15.4040(5)Å
α=90.0000° β=108.436(2)° γ=90.0000°