Structures by: Mitzi D. B.
Total: 33
0.5(I8Pb2),2(C5H14N)
0.5(I8Pb2),2(C5H14N)
Chemical Science (2019)
a=15.0424(8)Å b=9.2398(4)Å c=8.5756(5)Å
α=90° β=106.155(3)° γ=90°
0.5(I8Pb2),C8H26N2
0.5(I8Pb2),C8H26N2
Chemical Science (2019)
a=8.9353(2)Å b=8.9353(2)Å c=24.9636(13)Å
α=90° β=90° γ=90°
0.5(I8Pb2),2(C7H18N)
0.5(I8Pb2),2(C7H18N)
Chemical Science (2019)
a=17.4586(5)Å b=9.2513(3)Å c=8.5864(3)Å
α=90° β=103.2228(10)° γ=90°
0.5(I8Pb2),2(C8H20N)
0.5(I8Pb2),2(C8H20N)
Chemical Science (2019)
a=18.6958(7)Å b=8.8497(3)Å c=8.8421(3)Å
α=90° β=95.3669(12)° γ=90°
La.97 (Ba.84 La.28) Cu3 O7.2
Ba0.84Cu3La1.25O7.2
Solid State Ionics (1989) 32, 1064-1079
a=3.9112Å b=3.9112Å c=11.701Å
α=90° β=90° γ=90°
La.98 (Ba.3188 La.0212) Cu3 O7.13
Ba0.3188Cu3La1.0012O7.13
Solid State Ionics (1989) 32, 1064-1079
a=3.9153Å b=3.9153Å c=11.764Å
α=90° β=90° γ=90°
La.98 (Ba.2625 La.0175) Cu3 O7.05
Ba0.2625Cu3La0.9975O7.05
Solid State Ionics (1989) 32, 1064-1079
a=3.8971Å b=3.9304Å c=11.772Å
α=90° β=90° γ=90°
La.99 (Ba.2438 La.0162) Cu3 O6.99
Ba0.2438Cu3La1.0062O6.99
Solid State Ionics (1989) 32, 1064-1079
a=3.9236Å b=3.9236Å c=11.78Å
α=90° β=90° γ=90°
La0.98 (Ba0.385 La0.055) Cu3 O6.99
Ba0.385Cu3La1.035O6.99
Solid State Ionics (1989) 32, 1064-1079
a=3.919Å b=3.919Å c=11.742Å
α=90° β=90° γ=90°
La.99 (Ba.281 La.019) Cu3 O6.99
Ba0.281Cu3La1.009O6.99
Solid State Ionics (1989) 32, 1064-1079
a=3.9147Å b=3.9325Å c=11.783Å
α=90° β=90° γ=90°
La.98 (Ba.683 La.157) Cu3 O7.13
Ba0.683Cu3La1.137O7.13
Solid State Ionics (1989) 32, 1064-1079
a=3.9143Å b=3.9143Å c=11.718Å
α=90° β=90° γ=90°
La0.98 (Ba0.403 La0.057) Cu3 O6.99
Ba0.403Cu3La1.037O6.99
Solid State Ionics (1989) 32, 1064-1079
a=3.9136Å b=3.9244Å c=11.743Å
α=90° β=90° γ=90°
La.98 (Ba.618 La.142) Cu3 O7.13
Ba0.618Cu3La1.122O7.13
Solid State Ionics (1989) 32, 1064-1079
a=3.911Å b=3.917Å c=11.718Å
α=90° β=90° γ=90°
Hydrazinium/hydrazine tin(IV) selenide
N14H32Sn2Se6
Inorganic Chemistry (2005) 44, 3755-3761
a=6.6475(6)Å b=9.5474(9)Å c=9.883(1)Å
α=94.110(2)° β=99.429(2)° γ=104.141(2)°
Hydrazinium germanium(IV) selenide
N8H20Ge2Se6
Inorganic Chemistry (2005) 44, 3755-3761
a=12.7080(12)Å b=12.7080(12)Å c=21.9553(20)Å
α=90.0° β=90.0° γ=90.0°
AETO4Pb3I10
4C15H14N1O2S11,Pb3I104
Acta Crystallographica Section E (2003) 59, 6 m364-m366
a=9.793(2)Å b=11.704(2)Å c=18.061(4)Å
α=71.72(3)° β=89.45(3)° γ=82.09(3)°
0.5(I8Pb2),C12H18N2S2
0.5(I8Pb2),C12H18N2S2
Chemistry of Materials (2019) 31, 20 8523
a=29.7184(13)Å b=6.1756(3)Å c=12.2470(5)Å
α=90° β=92.7847(10)° γ=90°
AgBiI8,2(C12H18N2S2)
AgBiI8,2(C12H18N2S2)
Journal of the American Chemical Society (2019) 141, 19 7955-7964
a=28.951(3)Å b=6.0992(6)Å c=11.9821(12)Å
α=90° β=92.266(2)° γ=90°
AgBiI8,2(C12H18N2S2)
AgBiI8,2(C12H18N2S2)
Journal of the American Chemical Society (2019) 141, 19 7955-7964
a=29.3654(14)Å b=6.1473(3)Å c=12.0494(6)Å
α=90° β=92.7321(12)° γ=90°
Hydrazinium copper sulfide
N4H9Cu7S4
Inorganic Chemistry (2007) 46, 926-931
a=6.8621(4)Å b=7.9851(4)Å c=10.0983(5)Å
α=90.0° β=99.360(1)° γ=90.0°
Hydrazine zinc telluride - alpha phase
N4H8ZnTe
Inorganic Chemistry (2005) 44, 7078-7086
a=7.2157(4)Å b=11.5439(6)Å c=7.3909(4)Å
α=90.0° β=101.296(1)° γ=90.0°
Hydrazine zinc telluride - beta phase
N4H8ZnTe
Inorganic Chemistry (2005) 44, 7078-7086
a=8.1301(5)Å b=6.9580(5)Å c=10.7380(7)Å
α=90.0° β=91.703(1)° γ=90.0°
C5H16I4N2Sn
C5H16I4N2Sn
Inorganic Chemistry (2003) 42, 1400-1402
a=12.6017(10)Å b=20.2573(16)Å c=12.5048(10)Å
α=90.00° β=90.00° γ=90.00°
C16H22Br2I4N2Sn
C16H22Br2I4N2Sn
Inorganic Chemistry (2003) 42, 2031-2039
a=18.5395(16)Å b=8.3443(7)Å c=8.7795(7)Å
α=90.00° β=93.0390(10)° γ=90.00°
C16H22Cl2I4N2Sn
C16H22Cl2I4N2Sn
Inorganic Chemistry (2003) 42, 2031-2039
a=33.781(7)Å b=6.1780(12)Å c=6.1902(12)Å
α=90.00° β=90.42(3)° γ=90.00°
Dodecylammonium tin(II) triiodide
C12H28I3NSn
Inorganic Chemistry (2003) 42, 6589-6591
a=8.8743(7)Å b=8.9512(8)Å c=26.685(2)Å
α=84.3920(10)° β=85.9120(10)° γ=89.4910(10)°
Dodecylammonium tin(II) tetraiodide
C24H56I4N2Sn
Inorganic Chemistry (2003) 42, 6589-6591
a=8.8732(10)Å b=8.4771(9)Å c=48.841(5)Å
α=90.00° β=90.00° γ=90.00°
Hexafluorobenzene-intercalated phenethylammonium tin(II) iodide
C22H24N2F6SnI4
Inorganic Chemistry (2002) 41, 2134-2145
a=40.685(4)Å b=6.0804(6)Å c=12.1633(12)Å
α=90.0° β=93.136(2)° γ=90.0°
Benzene-intercalated pentafluorophenethylammonium tin(II) iodide
C22H20N2F10SnI4
Inorganic Chemistry (2002) 41, 2134-2145
a=41.089(12)Å b=6.1342(17)Å c=12.245(3)Å
α=90.0° β=94.021(5)° γ=90.0°
Pentacene-maleimide adduct w/ dichlorobenzene
C32H21NO2Cl2
Crystal Growth & Design (2007) 7, 4 691
a=11.8175(6)Å b=11.9876(6)Å c=17.9070(9)Å
α=90.0° β=92.109(1)° γ=90.0°
Pentacene-maleimide adduct w/ toluene
C33H25NO2
Crystal Growth & Design (2007) 7, 4 691
a=11.710(1)Å b=11.453(1)Å c=18.356(2)Å
α=90.0° β=90.262(2)° γ=90.0°
Pentacene-maleimide adduct
C26H17NO2
Crystal Growth & Design (2007) 7, 4 691
a=14.2086(11)Å b=7.6337(6)Å c=18.6555(15)Å
α=90.0° β=108.395(1)° γ=90.0°
Pentacene-maleimide adduct w/ pyridine
C67H49N5O4
Crystal Growth & Design (2007) 7, 4 691
a=10.920(2)Å b=15.549(2)Å c=15.558(2)Å
α=102.799(3)° β=95.801(3)° γ=91.164(3)°