Structures by: Goodilin E. A.
Total: 14
I5Pb,C3H7NO,3(CH6N)
I5Pb,C3H7NO,3(CH6N)
The Journal of Physical Chemistry C (2017) 121, 38 20739
a=10.1714(15)Å b=11.335(3)Å c=12.394(2)Å
α=111.18(3)° β=101.11(3)° γ=109.80(3)°
I8Pb3,2(C3H7NO),2(CH6N)
I8Pb3,2(C3H7NO),2(CH6N)
The Journal of Physical Chemistry C (2017) 121, 38 20739
a=17.165(4)Å b=21.955(4)Å c=4.5549(9)Å
α=90° β=90° γ=90°
I3Pb,C3H7NO,CH6N
I3Pb,C3H7NO,CH6N
The Journal of Physical Chemistry C (2017) 121, 38 20739
a=4.5647(9)Å b=25.446(5)Å c=12.119(2)Å
α=90° β=96.75(3)° γ=90°
Nd Ba2 Cu3 O6.92
Ba2Cu3NdO6.92
Physica C (Amsterdam) (2000) 340, 16-32
a=3.8683Å b=3.9191Å c=11.7509Å
α=90° β=90° γ=90°
Nd Ba2 Cu3 O6.9
Ba2Cu3NdO6.9
Physica C (Amsterdam) (2000) 340, 16-32
a=3.8966Å b=3.9084Å c=11.7186Å
α=90° β=90° γ=90°
Nd (Ba1.95 Nd0.05) Cu3 O6.95
Ba1.95Cu3Nd1.05O6.95
Physica C (Amsterdam) (2000) 340, 16-32
a=3.9018Å b=3.9021Å c=11.7079Å
α=90° β=90° γ=90°
Formamidinium iodide
CH5N2,I
Acta Crystallographica Section E (2017) 73, 4 569-572
a=4.8211(6)Å b=13.776(3)Å c=7.0113(10)Å
α=90° β=98.06(3)° γ=90°
I8Pb3,4(C3H7NO),2(CH5N2)
I8Pb3,4(C3H7NO),2(CH5N2)
Chemistry of Materials (2020)
a=40.200(8)Å b=45.720(9)Å c=4.5800(9)Å
α=90° β=90° γ=90°
C2H6Br4OPbS,2(CH5N2)
C2H6Br4OPbS,2(CH5N2)
Chemistry of Materials (2020)
a=22.334(5)Å b=12.933(3)Å c=11.629(2)Å
α=90° β=90° γ=90°
15(CH5N2),3(I9Pb2)
15(CH5N2),3(I9Pb2)
Chemistry of Materials (2020)
a=26.770(3)Å b=26.770(3)Å c=14.860(2)Å
α=90° β=90° γ=120°
I3Pb,2(C3H7NO),CH5N2
I3Pb,2(C3H7NO),CH5N2
Chemistry of Materials (2020)
a=7.8788(16)Å b=10.497(2)Å c=12.678(3)Å
α=75.92(3)° β=75.11(3)° γ=68.82(3)°
I8Pb3,C4H6O2,2(CH6N)
I8Pb3,C4H6O2,2(CH6N)
Chemistry of Materials (2018) 30, 15 5237
a=21.822(4)Å b=4.5979(9)Å c=16.653(3)Å
α=90° β=101.80(3)° γ=90°
I44Pb18,(C4H6O2)x,(CH6N)y
I44Pb18,(C4H6O2)x,(CH6N)y
Chemistry of Materials (2018) 30, 15 5237
a=23.290(3)Å b=23.290(3)Å c=23.290(3)Å
α=90° β=90° γ=90°
I44Pb18,(C4H6O2)13,(CH6N)8
I44Pb18,(C4H6O2)13,(CH6N)8
Chemistry of Materials (2018) 30, 15 5237
a=23.279(3)Å b=23.279(3)Å c=30.804(6)Å
α=90° β=90° γ=90°