Structures by: Ok K. M.
Total: 110
CCs3O8V
CCs3O8V
Chemical science (2018) 9, 48 8957-8961
a=9.447(3)Å b=10.129(3)Å c=6.1571(18)Å
α=90.00° β=123.42(3)° γ=90.00°
K2 (Te W3 O12)
K2O12TeW3
Journal of Solid State Chemistry (2003) 175, 3-12
a=7.3224Å b=11.669Å c=12.708Å
α=90° β=90.421° γ=90°
La (Te Nb O6)
LaNbO6Te
Journal of Solid State Chemistry (2003) 175, 264-271
a=6.7842Å b=7.4473Å c=10.7519Å
α=79.649° β=76.92° γ=89.923°
Na (Bi Te O5)
BiNaO5Te
Solid State Sciences (2002) 4, 793-797
a=7.2645Å b=9.8048Å c=6.2718Å
α=90° β=106.819° γ=90°
La4 (Ta2 Te6 O23)
La4O23Ta2Te6
Journal of Solid State Chemistry (2003) 175, 264-271
a=23.4676Å b=12.1291Å c=7.6416Å
α=90° β=101.258° γ=90°
Sodium molybdenum tellurium oxide
Mo3Na2O16Te3
Chemistry of Materials (2006) 18, 8 2070-2074
a=7.3373(10)Å b=11.2668(16)Å c=8.2369(18)Å
α=90° β=97.387(3)° γ=90°
Sb (Sb0.5 Ta0.5) O4
O4Sb1.5Ta0.5
Journal of Solid State Chemistry (2001) 161, 57-62
a=5.5019Å b=4.8762Å c=11.8038Å
α=90° β=90° γ=90°
Sb (Sb0.5 Nb0.5) O4
Nb0.5O4Sb1.5
Journal of Solid State Chemistry (2001) 161, 57-62
a=5.514Å b=4.8761Å c=11.7961Å
α=90° β=90° γ=90°
C15H20F8N10O2V2Zn2
C15H20F8N10O2V2Zn2
CrystEngComm (2020)
a=21.0346(9)Å b=13.9323(7)Å c=8.4240(5)Å
α=90° β=92.856(2)° γ=90°
C16H26F6N8O3V2Zn
C16H26F6N8O3V2Zn
CrystEngComm (2020)
a=9.970(2)Å b=15.173(3)Å c=18.460(4)Å
α=90° β=105.65(3)° γ=90°
C40H60F12N20O3V3Zn3
C40H60F12N20O3V3Zn3
CrystEngComm (2020)
a=21.4873(8)Å b=14.4408(5)Å c=20.9884(7)Å
α=90° β=112.827(2)° γ=90°
C42H40N4,C8H20N,Cl
C42H40N4,C8H20N,Cl
Chemical communications (Cambridge, England) (2018) 54, 57 7936-7939
a=10.1635(19)Å b=20.791(4)Å c=10.5547(19)Å
α=90° β=102.641(2)° γ=90°
C42H40N4,2(C3H6O),H2O
C42H40N4,2(C3H6O),H2O
Chemical communications (Cambridge, England) (2018) 54, 57 7936-7939
a=16.8622(6)Å b=9.5715(4)Å c=26.4871(9)Å
α=90° β=90.972(2)° γ=90°
C42H38F2N4,C16H36N,C2H3N,F,0.294(O)
C42H38F2N4,C16H36N,C2H3N,F,0.294(O)
Chemical communications (Cambridge, England) (2018) 54, 57 7936-7939
a=11.5785(7)Å b=13.3678(9)Å c=19.1989(10)Å
α=80.990(3)° β=73.141(3)° γ=82.786(4)°
C42H40N4,2(C2H3N)
C42H40N4,2(C2H3N)
Chemical communications (Cambridge, England) (2018) 54, 57 7936-7939
a=11.270(2)Å b=14.844(3)Å c=12.708(3)Å
α=90° β=114.23(3)° γ=90°
C42H40N4
C42H40N4
Chemical communications (Cambridge, England) (2018) 54, 57 7936-7939
a=26.1757(5)Å b=26.1757(5)Å c=31.6025(9)Å
α=90° β=90° γ=120°
Tetramethylammonium Uranium oxide fluoride
C4H12F5NO4U2
Journal of Materials Chemistry (2006) 16, 33 3366
a=7.2721(10)Å b=7.2721(10)Å c=23.632(5)Å
α=90° β=90° γ=90°
Tetramethylammonium uranium oxide nitrate
C4H12N4O11U
Journal of Materials Chemistry (2006) 16, 33 3366
a=7.7670(16)Å b=16.964(3)Å c=11.255(2)Å
α=90° β=105.98(3)° γ=90°
Lanthanum antimony oxide
LaO9Sb3
Journal of Materials Chemistry (2004) 14, 1 116
a=5.5210(8)Å b=11.8274(17)Å c=5.5250(8)Å
α=90° β=107.257(2)° γ=90°
Lanthanum antimony oxide
LaO12Sb5
Journal of Materials Chemistry (2004) 14, 1 116
a=7.2707(7)Å b=7.2707(7)Å c=16.4673(12)Å
α=90° β=90° γ=120°
N/A
C11H17Cl2NTi
Green Chemistry (2009) 11, 9 1343
a=7.3084(15)Å b=10.576(2)Å c=8.5363(17)Å
α=90° β=102.70(3)° γ=90°
Thorium-1,3-adamantanediacetate oxyfluoride mononitrate
C42H54F5NO15Th3
Dalton Transactions (2008) 41 5560-5562
a=21.247(3)Å b=21.247(3)Å c=21.247(3)Å
α=90° β=90° γ=90°
HIO4Zn
HIO4Zn
Dalton transactions (Cambridge, England : 2003) (2012) 41, 27 8348-8353
a=4.67670(10)Å b=11.2392(4)Å c=6.3308(2)Å
α=90° β=90.019(2)° γ=90°
Mo2O12Pb2Se2
Mo2O12Pb2Se2
Dalton transactions (Cambridge, England : 2003) (2012) 41, 10 2995-3000
a=6.8944(6)Å b=7.2219(6)Å c=10.8294(9)Å
α=99.751(2)° β=99.996(2)° γ=90.041(2)°
Bismusth Tellurium Oxychloride
Bi3Cl5O10Te4
Dalton transactions (Cambridge, England : 2003) (2010) 39, 26 6037-6042
a=15.372(3)Å b=4.1004(7)Å c=13.301(2)Å
α=90° β=98.336(5)° γ=90°
C14H12.6N2O11.3Zr
C14H12.6N2O11.3Zr
CrystEngComm (2014) 16, 25 5619
a=23.7011(7)Å b=12.1758(3)Å c=14.3519(6)Å
α=90° β=105.526(2)° γ=90°
C23H27N5O11Zr
C23H27N5O11Zr
CrystEngComm (2014) 16, 25 5619
a=30.4402(13)Å b=11.6778(4)Å c=15.9518(6)Å
α=90° β=99.695(3)° γ=90°
C17H18N2O11Zr
C17H18N2O11Zr
CrystEngComm (2014) 16, 25 5619
a=9.6801(2)Å b=18.9975(3)Å c=21.3644(3)Å
α=90° β=90° γ=90°
C18H9K3O12
C18H9K3O12
CrystEngComm (2010) 12, 5 1481
a=3.9802(8)Å b=13.615(3)Å c=17.671(4)Å
α=90° β=93.72(3)° γ=90°
C18H9O12Rb3
C18H9O12Rb3
CrystEngComm (2010) 12, 5 1481
a=4.0727(8)Å b=13.891(3)Å c=17.853(4)Å
α=90° β=93.81(3)° γ=90°
BaI6O18Zr
BaI6O18Zr
Dalton transactions (Cambridge, England : 2003) (2014) 43, 27 10456-10461
a=7.7497(3)Å b=7.7663(3)Å c=14.7514(6)Å
α=91.129(3)° β=102.966(3)° γ=90.850(3)°
Rb2 (Te W3 O12)
O12Rb2TeW3
Journal of Solid State Chemistry (2003) 175, 3-12
a=7.298Å b=7.298Å c=12.064Å
α=90° β=90° γ=120°
Bi3FO14Se5
Bi3FO14Se5
Chemistry of Materials (2020)
a=6.8852(5)Å b=7.2600(5)Å c=14.7694(9)Å
α=90° β=97.2854(19)° γ=90°
AgGaI4O12
AgGaI4O12
Chemistry of Materials (2020) 32, 8 3621-3630
a=7.137(2)Å b=7.605(2)Å c=10.036(2)Å
α=87.757(4)° β=77.802(4)° γ=80.176(3)°
Ag3I12In3O36
Ag3I12In3O36
Chemistry of Materials (2020) 32, 8 3621-3630
a=7.3420(15)Å b=15.218(3)Å c=14.997(3)Å
α=90° β=101.01(3)° γ=90°
Ag3I6InO18
Ag3I6InO18
Chemistry of Materials (2020) 32, 8 3621-3630
a=8.1160(16)Å b=10.426(2)Å c=11.110(2)Å
α=75.09(3)° β=89.91(3)° γ=76.20(3)°
GaHI6O18,2(K)
GaHI6O18,2(K)
Chemistry of Materials (2020) 32, 8 3621-3630
a=7.5396(3)Å b=7.5656(3)Å c=7.5950(3)Å
α=99.5460(10)° β=96.8430(10)° γ=96.5100(10)°
GaHI6O18,2(Rb)
GaHI6O18,2(Rb)
Chemistry of Materials (2020) 32, 8 3621-3630
a=7.6379(5)Å b=7.6553(5)Å c=7.6882(5)Å
α=99.145(2)° β=96.914(2)° γ=97.321(2)°
Yb3.42Ca1.58Al2Sb6
Yb3.42Ca1.58Al2Sb6
Chemistry of Materials (2017) 29, 3 1384
a=7.3254(6)Å b=22.9041(17)Å c=4.4094(4)Å
α=90° β=90° γ=90°
Yb2.22Ca2.79Al2Sb6
Yb2.22Ca2.79Al2Sb6
Chemistry of Materials (2017) 29, 3 1384
a=12.0321(2)Å b=14.0230(3)Å c=4.45320(10)Å
α=90° β=90° γ=90°
Yb3.45Ca1.55Al2Sb6
Yb3.45Ca1.55Al2Sb6
Chemistry of Materials (2017) 29, 3 1384
a=12.0006(3)Å b=13.9925(4)Å c=4.44570(10)Å
α=90° β=90° γ=90°
Yb1.40Ca3.60Al2Sb6
Yb1.40Ca3.60Al2Sb6
Chemistry of Materials (2017) 29, 3 1384
a=11.962(6)Å b=13.929(8)Å c=4.427(2)Å
α=90° β=90° γ=90°
I2KO8V
I2KO8V
Chemistry of Materials (2002)
a=9.4001(15)Å b=5.2383(8)Å c=15.725(3)Å
α=90.00° β=104.799(3)° γ=90.00°
I2O8RbV
I2O8RbV
Chemistry of Materials (2002)
a=5.2878(9)Å b=7.9830(10)Å c=9.669(2)Å
α=72.456(3)° β=89.686(3)° γ=87.929(3)°
H0I3NO13V2
H0I3NO13V2
Chemistry of Materials (2002)
a=14.099(2)Å b=10.2138(13)Å c=8.0510(10)Å
α=90.00° β=90.00° γ=90.00°
I3O13RbV2
I3O13RbV2
Chemistry of Materials (2002)
a=14.1212(10)Å b=10.2392(7)Å c=8.0300(6)Å
α=90.00° β=90.00° γ=90.00°
CsI3O13V2
CsI3O13V2
Chemistry of Materials (2002)
a=14.1810(10)Å b=10.3178(8)Å c=8.0756(7)Å
α=90.00° β=90.00° γ=90.00°
In2O15Se6
In2O15Se6
Chemistry of Materials (2002) 14, 5 2360
a=11.1463(5)Å b=13.3210(6)Å c=9.7149(4)Å
α=90° β=105.4780(10)° γ=90°
GaKO14Te6
GaKO14Te6
Chemistry of Materials (2001) 13, 11 4278-4284
a=10.9267(3)Å b=10.9267(3)Å c=10.9267(3)Å
α=90° β=90° γ=90°
Ga1K1O7.8Te2H3.6
Ga1K1O7.8Te2H3.6
Chemistry of Materials (2001) 13, 11 4278-4284
a=8.8361(6)Å b=9.1648(6)Å c=9.9531(7)Å
α=115.3950(10)° β=93.9730(10)° γ=116.0110(10)°
O12RbSe2V3
O12RbSe2V3
Chemistry of Materials (2009) 21, 8 1654
a=7.1364(4)Å b=7.1364(4)Å c=11.4687(13)Å
α=90° β=90° γ=120°
O12Se2TlV3
O12Se2TlV3
Chemistry of Materials (2009) 21, 8 1654
a=7.1248(3)Å b=7.1248(3)Å c=11.4287(11)Å
α=90° β=90° γ=120°
H8K2O12.2Te4
H8K2O12.2Te4
Chemistry of Materials (2001) 13, 11 4278-4284
a=7.5046(5)Å b=10.7097(8)Å c=10.7159(8)Å
α=60.8490(10)° β=69.9180(10)° γ=85.9680(10)°
Bi2Br10,4(C8H12N)
Bi2Br10,4(C8H12N)
ACS omega (2018) 3, 12 17895-17903
a=11.9962(3)Å b=14.6765(4)Å c=13.8899(4)Å
α=90° β=93.394(2)° γ=90°
Bi2Br10,4(C8H12N)
Bi2Br10,4(C8H12N)
ACS omega (2018) 3, 12 17895-17903
a=11.997(2)Å b=14.728(3)Å c=13.940(3)Å
α=90° β=93.44(3)° γ=90°
C36H48N4Si2,C3H6O
C36H48N4Si2,C3H6O
The Journal of organic chemistry (2019) 84, 11 6851-6857
a=10.509(2)Å b=14.050(3)Å c=14.974(3)Å
α=69.53(3)° β=87.69(3)° γ=81.67(3)°
C30H32N4,CH2Cl2
C30H32N4,CH2Cl2
The Journal of organic chemistry (2019) 84, 11 6851-6857
a=10.3734(5)Å b=10.4862(5)Å c=16.0455(7)Å
α=71.411(2)° β=82.811(3)° γ=60.942(2)°
NEODYMIUM MOLYBDENYL IODATE
HI4MoNdO15
Inorganic Chemistry (2003) 42, 457-462
a=6.9383(5)Å b=14.0279(9)Å c=7.0397(5)Å
α=90.00° β=114.8900(10)° γ=90.00°
EUROPIUM MOLYBDENYL IODATE
EuHI4MoO15
Inorganic Chemistry (2003) 42, 457-462
a=6.9169(6)Å b=13.9434(11)Å c=7.0170(6)Å
α=90.00° β=114.5420(10)° γ=90.00°
C9H3NO9Sr2
C9H3NO9Sr2
Crystal Growth & Design (2011) 11, 7 2698
a=17.3726(7)Å b=17.3726(7)Å c=10.0243(8)Å
α=90° β=90° γ=120°
C14H12Ca2N2O11
C14H12Ca2N2O11
Crystal Growth & Design (2011) 11, 4 930
a=13.658(3)Å b=9.837(2)Å c=13.586(3)Å
α=90° β=92.64(3)° γ=90°
C7H9CaNO7
C7H9CaNO7
Crystal Growth & Design (2011) 11, 4 930
a=5.8693(12)Å b=17.848(4)Å c=9.897(2)Å
α=90° β=98.62(3)° γ=90°
C5H16Mo3N2O14S1
C5H16Mo3N2O14S1
Crystal Growth & Design (2005) 5, 5 1913
a=8.5398(6)Å b=10.7500(9)Å c=18.1077(11)Å
α=90° β=90° γ=90°
C7Mo3N2O11
C7Mo3N2O11
Inorganic Chemistry (2006) 45, 14 5529-5537
a=8.890(2)Å b=7.6605(8)Å c=10.6695(13)Å
α=90° β=103.541(15)° γ=90°
C14H34Mo8N4O27
C14H34Mo8N4O27
Inorganic Chemistry (2006) 45, 14 5529-5537
a=12.7611(8)Å b=16.2554(12)Å c=15.6322(11)Å
α=90° β=90° γ=90°
C14H40Mo8N4O30
C14H40Mo8N4O30
Inorganic Chemistry (2006) 45, 14 5529-5537
a=7.9547(3)Å b=11.0404(5)Å c=20.6373(7)Å
α=90° β=94.684(3)° γ=90°
C14H32Mo8N4O26
C14H32Mo8N4O26
Inorganic Chemistry (2006) 45, 14 5529-5537
a=7.2672(3)Å b=11.6360(5)Å c=19.6965(8)Å
α=90° β=99.852(4)° γ=90°
C14H32Mo8N4O26
C14H32Mo8N4O26
Inorganic Chemistry (2006) 45, 14 5529-5537
a=7.2685(3)Å b=11.6423(5)Å c=19.6887(9)Å
α=90° β=99.948(4)° γ=90°
KO6Se2Y
KO6Se2Y
Inorganic chemistry (2014) 53, 9 4756-4762
a=13.3838(2)Å b=5.70270(10)Å c=8.6759(2)Å
α=90° β=90° γ=90°
CsO6Se2Y
CsO6Se2Y
Inorganic chemistry (2014) 53, 9 4756-4762
a=8.8114(2)Å b=8.8114(2)Å c=8.8114(2)Å
α=90° β=90° γ=90°
O6RbSe2Y
O6RbSe2Y
Inorganic chemistry (2014) 53, 9 4756-4762
a=13.7594(5)Å b=5.7457(2)Å c=8.7692(3)Å
α=90° β=90° γ=90°
O10Sc2Se3
O10Sc2Se3
Inorganic chemistry (2014) 53, 13 7040-7046
a=6.5294(2)Å b=10.8557(4)Å c=12.6281(6)Å
α=90° β=103.543(3)° γ=90°
O10Sc2Se2Te
O10Sc2Se2Te
Inorganic chemistry (2014) 53, 13 7040-7046
a=6.5345(12)Å b=10.970(2)Å c=12.559(2)Å
α=90° β=102.699(10)° γ=90°
O9Sc2Te3
O9Sc2Te3
Inorganic chemistry (2014) 53, 13 7040-7046
a=5.2345(3)Å b=24.3958(15)Å c=6.8636(4)Å
α=90° β=106.948(2)° γ=90°
Cesium iodate
Cs2I4O11
Inorganic Chemistry (2005) 44, 25 9353-9359
a=12.7662(14)Å b=7.4598(8)Å c=14.4044(16)Å
α=90° β=106.993(2)° γ=90°
Rubidium iodate monohydrate
H4I6O18Rb2
Inorganic Chemistry (2005) 44, 25 9353-9359
a=7.0652(17)Å b=7.5066(18)Å c=18.262(4)Å
α=79.679(4)° β=85.185(4)° γ=70.684(4)°
Lanthanum iodate
I9La3O27
Inorganic Chemistry (2005) 44, 25 9353-9359
a=12.526(2)Å b=7.0939(9)Å c=27.823(4)Å
α=90° β=101.975(4)° γ=90°
Sodium yttrium iodate
I8Na2O24Y2
Inorganic Chemistry (2005) 44, 25 9353-9359
a=31.235(3)Å b=5.5679(5)Å c=12.5451(12)Å
α=90° β=91.120(3)° γ=90°
O8Se2VY
O8Se2VY
Inorganic chemistry (2014) 53, 2 1250-1256
a=10.4036(4)Å b=7.5904(3)Å c=7.8341(3)Å
α=90° β=90° γ=90°
O8Te2VY
O8Te2VY
Inorganic chemistry (2014) 53, 2 1250-1256
a=7.9396(10)Å b=7.5625(10)Å c=21.282(2)Å
α=90° β=90.010(10)° γ=90°
InNbO8Te2
InNbO8Te2
Inorganic chemistry (2014) 53, 10 5240-5245
a=7.63610(10)Å b=10.82980(10)Å c=7.65640(10)Å
α=90° β=90° γ=90°
SAMARIUM MOLYBDENYL IODATE
HI4MoO15Sm
Inorganic Chemistry (2003) 42, 457-462
a=6.9243(6)Å b=13.9633(11)Å c=7.0229(6)Å
α=90.00° β=114.6810(10)° γ=90.00°
C15H15N3O7Ti
C15H15N3O7Ti
Inorganic chemistry (2016) 55, 22 11635-11638
a=42.164(9)Å b=20.815(4)Å c=7.4780(15)Å
α=90° β=90° γ=90°
O8V1Ga1Te2
O8V1Ga1Te2
Inorganic chemistry (2016) 55, 3 1347-1353
a=7.9198(2)Å b=4.91690(10)Å c=16.4311(4)Å
α=90° β=93.816(2)° γ=90°
O8Al1V1Te2
O8Al1V1Te2
Inorganic chemistry (2016) 55, 3 1347-1353
a=7.9351(10)Å b=4.8413(7)Å c=16.342(2)Å
α=90° β=93.720(10)° γ=90°
Al2Li6O22Te8
Al2Li6O22Te8
Inorganic chemistry (2017) 56, 10 5873-5879
a=18.9467(4)Å b=5.13400(10)Å c=10.6284(2)Å
α=90° β=109.632(12)° γ=90°
?
Ga2Li6O22Te8
Inorganic chemistry (2017) 56, 10 5873-5879
a=18.7906(10)Å b=5.1841(2)Å c=10.7786(5)Å
α=90° β=109.726(4)° γ=90°
C14H10CoN2NaO10
C14H10CoN2NaO10
Inorganic Chemistry Frontiers (2017) 4, 1 79
a=14.0209(10)Å b=9.5023(10)Å c=12.8892(10)Å
α=90° β=113.564(10)° γ=90°
C14H6CoKN2O8
C14H6CoKN2O8
Inorganic Chemistry Frontiers (2017) 4, 1 79
a=6.9113(10)Å b=6.9113(10)Å c=28.4262(14)Å
α=90° β=90° γ=90°
C14H8CoN2O9
C14H8CoN2O9
Inorganic Chemistry Frontiers (2017) 4, 1 79
a=7.0260(10)Å b=7.0260(10)Å c=27.891(3)Å
α=90° β=90° γ=90°
InNaO6Te2
InNaO6Te2
Inorganic chemistry (2014) 53, 20 11328-11334
a=10.67300(10)Å b=8.26500(10)Å c=13.5683(2)Å
α=90° β=90° γ=90°
InKO6Te2
InKO6Te2
Inorganic chemistry (2014) 53, 20 11328-11334
a=13.3038(2)Å b=5.8336(10)Å c=8.2510(10)Å
α=90° β=90° γ=90°
InO8RbTe3
InO8RbTe3
Inorganic chemistry (2014) 53, 20 11328-11334
a=5.7616(2)Å b=7.5726(3)Å c=11.1342(5)Å
α=79.688(2)° β=89.460(2)° γ=70.252(2)°
CsInO8Te3
CsInO8Te3
Inorganic chemistry (2014) 53, 20 11328-11334
a=5.80810(10)Å b=7.7458(2)Å c=11.2878(2)Å
α=79.547(10)° β=89.419(10)° γ=69.380(10)°
Na Nb3 Te4 O16
NaNb3O16Te4
Inorganic Chemistry (2005) 44, 3919-3925
a=6.6126Å b=7.4738Å c=14.034Å
α=90° β=102.98° γ=90°
Na1.40 Nb3 Te4.90 O18
Na1.4Nb3O18Te4.9
Inorganic Chemistry (2005) 44, 3919-3925
a=32.377Å b=7.4541Å c=6.5649Å
α=90° β=95.636° γ=90°
Pb4 Te6 Nb10 O41
Nb10O41Pb4.67Te6
Inorganic Chemistry (2004) 43, 4248-4253
a=23.412Å b=20.114Å c=7.5008Å
α=90° β=99.63° γ=90°
Ba2.5 (V O2)3 (Se O3)4 (H2 O)
Ba2.5H2O19Se4V3
Inorganic Chemistry (2006) 45, 3602-3605
a=12.8279Å b=12.8279Å c=7.2631Å
α=90° β=90° γ=120°
La (V O2)3 (Te O6) (H2 O)3
H6LaO15TeV3
Inorganic Chemistry (2006) 45, 3602-3605
a=9.4577Å b=9.4577Å c=23.455Å
α=90° β=90° γ=120°
Na2O9Te4
Na2O9Te4
Inorganic chemistry (2014) 53, 19 10642-10648
a=16.317(2)Å b=10.4544(10)Å c=10.8874(10)Å
α=90° β=90° γ=90°