Structures by: Stephens P. W.

Total: 180

Decamethylferrocenium tetracyanoethenide

C20H30Fe1,C6N41

Jae-Hyuk HerPeter W. StephensJordi Ribas-AriñoJuan J. NovoaWilliam W. ShumJoel S. Miller

Inorganic Chemistry (2009) 48, 3296-3307

a=10.629(1)Å   b=16.128(1)Å   c=14.593(1)Å

α=90°   β=90°   γ=90°

Acetonitriledichloroiron(II)

C2H3Cl2FeN

Konstantin I. PokhodnyaMichael BonnerAntonio G. DiPasqualeArnold L. RheingoldJae-Hyuk HerPeter W. StephensJong-Won ParkBretni S. KennonAtta M. ArifJoel S. Miller

Inorganic Chemistry (2007) 46, 2471-2477

a=18.2005(2)Å   b=8.38085(8)Å   c=3.65730(4)Å

α=90°   β=94.167(3)°   γ=90°

Acetonitriledichloroiron(II)

C4H6Cl2MnN2

Konstantin I. PokhodnyaMichael BonnerAntonio G. DiPasqualeArnold L. RheingoldJae-Hyuk HerPeter W. StephensJong-Won ParkBretni S. KennonAtta M. ArifJoel S. Miller

Inorganic Chemistry (2007) 46, 2471-2477

a=8.125(3)Å   b=13.368(5)Å   c=3.7430(15)Å

α=90.00°   β=90.00°   γ=90.00°

Acetonitriledichloroiron(II)

C4H6Cl2FeN2

Konstantin I. PokhodnyaMichael BonnerAntonio G. DiPasqualeArnold L. RheingoldJae-Hyuk HerPeter W. StephensJong-Won ParkBretni S. KennonAtta M. ArifJoel S. Miller

Inorganic Chemistry (2007) 46, 2471-2477

a=8.0558(3)Å   b=13.3799(4)Å   c=3.70290(10)Å

α=90.00°   β=90.00°   γ=90.00°

Acetonitriledichloroiron(II)

C8H20N,C2H3Cl3CoN

Konstantin I. PokhodnyaMichael BonnerAntonio G. DiPasqualeArnold L. RheingoldJae-Hyuk HerPeter W. StephensJong-Won ParkBretni S. KennonAtta M. ArifJoel S. Miller

Inorganic Chemistry (2007) 46, 2471-2477

a=7.2674(5)Å   b=13.2740(9)Å   c=8.2674(5)Å

α=90.00°   β=90.0180(10)°   γ=90.00°

Potassium cyanomanganate

C6K2Mn2N6

Jae-Hyuk HerPeter W. StephensChristopher M. KareisJoshua G. MooreKil Sik MinJong-Won ParkGarima BaliBretni S. KennonJoel S. Miller

Inorganic Chemistry (2010) 49, 1524-1534

a=10.17855(13)Å   b=7.41244(10)Å   c=6.97575(11)Å

α=90°   β=90.2058(11)°   γ=90°

Rubidium cyanomanganate

C6Mn2N6Rb2

Jae-Hyuk HerPeter W. StephensChristopher M. KareisJoshua G. MooreKil Sik MinJong-Won ParkGarima BaliBretni S. KennonJoel S. Miller

Inorganic Chemistry (2010) 49, 1524-1534

a=10.410150(66)Å   b=7.449200(55)Å   c=7.213190(53)Å

α=90°   β=90.07202(60)°   γ=90°

Cesium cyanomanganate

C6Cs2Mn2N6

Jae-Hyuk HerPeter W. StephensChristopher M. KareisJoshua G. MooreKil Sik MinJong-Won ParkGarima BaliBretni S. KennonJoel S. Miller

Inorganic Chemistry (2010) 49, 1524-1534

a=10.60605(12)Å   b=10.60605(12)Å   c=10.60605(12)Å

α=90°   β=90°   γ=90°

C16H14O

C16H14O

Barsky, InnaBernstein, JoelStephens, Peter W.Stone, Kevin H.Cheung, EugeneHickey, Magali B.Henck, Jan-Olav

Crystal Growth & Design (2008) 8, 1 63

a=5.8731(17)Å   b=16.762(5)Å   c=12.554(4)Å

α=90.00°   β=93.499(9)°   γ=90.00°

C16H14O

C16H14O

Barsky, InnaBernstein, JoelStephens, Peter W.Stone, Kevin H.Cheung, EugeneHickey, Magali B.Henck, Jan-Olav

Crystal Growth & Design (2008) 8, 1 63

a=26.2365(9)Å   b=5.8236(2)Å   c=15.5412(5)Å

α=90.00°   β=101.8070(10)°   γ=90.00°

1:1 Co-crystal of 4HBA + 4PP

C11H9N,C7H6O3

Lapidus, Saul H.Stephens, Peter W.Arora, Kapildev K.Shattock, Tanise R.Zaworotko, Michael J.

Crystal Growth & Design (2010) 10, 10 4630

a=27.2425(8)Å   b=7.5516(2)Å   c=19.4804(6)Å

α=90°   β=131.08(4)°   γ=90°

1:1 Co-crystal of 3HBA + BP

C10H8N2,C7H6O3

Lapidus, Saul H.Stephens, Peter W.Arora, Kapildev K.Shattock, Tanise R.Zaworotko, Michael J.

Crystal Growth & Design (2010) 10, 10 4630

a=8.2321(2)Å   b=9.0510(3)Å   c=10.4684(3)Å

α=71.731(2)°   β=72.433(2)°   γ=87.083(3)°

1:2 Co-crystal of 3HBA + 4PP

2(C11H9N),C7H6O3

Lapidus, Saul H.Stephens, Peter W.Arora, Kapildev K.Shattock, Tanise R.Zaworotko, Michael J.

Crystal Growth & Design (2010) 10, 10 4630

a=9.3537(3)Å   b=21.1172(6)Å   c=11.9072(4)Å

α=90°   β=92.808(3)°   γ=90°

2:1 Complex of 4HBA + BPEA

C7H6O3,C7H5O3,C12H13N2

Lapidus, Saul H.Stephens, Peter W.Arora, Kapildev K.Shattock, Tanise R.Zaworotko, Michael J.

Crystal Growth & Design (2010) 10, 10 4630

a=7.58717(23)Å   b=23.94380(72)Å   c=12.58295(38)Å

α=90°   β=103.787(31)°   γ=90°

1:1 Co-crystal of 3HBA + BPEA

C12H12N2,C7H6O3

Lapidus, Saul H.Stephens, Peter W.Arora, Kapildev K.Shattock, Tanise R.Zaworotko, Michael J.

Crystal Growth & Design (2010) 10, 10 4630

a=8.0439(2)Å   b=9.0985(2)Å   c=11.3073(3)Å

α=97.1850(29)°   β=91.5281(27)°   γ=91.1061(27)°

2:3 Co-crystal of 3HBA + TMP

C7H6O3,1.5(C8H12N2)

Lapidus, Saul H.Stephens, Peter W.Arora, Kapildev K.Shattock, Tanise R.Zaworotko, Michael J.

Crystal Growth & Design (2010) 10, 10 4630

a=9.4644(3)Å   b=17.7343(5)Å   c=10.9533(3)Å

α=90°   β=91.782(3)°   γ=90°

1:1 Co-crystal of 3HBA + BPEE

C12H10N2,C7H6O3

Lapidus, Saul H.Stephens, Peter W.Arora, Kapildev K.Shattock, Tanise R.Zaworotko, Michael J.

Crystal Growth & Design (2010) 10, 10 4630

a=8.12889(24)Å   b=10.36002(31)Å   c=10.91631(33)Å

α=114.4508(34)°   β=104.4508(31)°   γ=93.1661(28)°

1:1 Co-crystal of 4HBA + BPEE

C12H10N2,C7H6O3

Lapidus, Saul H.Stephens, Peter W.Arora, Kapildev K.Shattock, Tanise R.Zaworotko, Michael J.

Crystal Growth & Design (2010) 10, 10 4630

a=6.20435(19)Å   b=7.10562(21)Å   c=18.61587(55)Å

α=92.9882(28)°   β=94.2670(28)°   γ=103.8906(31)°

1:1 complex of 3HP + IPA

C8H5O4,C5H6N1O1

Lapidus, Saul H.Stephens, Peter W.Arora, Kapildev K.Shattock, Tanise R.Zaworotko, Michael J.

Crystal Growth & Design (2010) 10, 10 4630

a=10.28444(31)Å   b=10.97318(33)Å   c=10.41205(32)Å

α=90°   β=100.1652(30)°   γ=90°

1:1 Co-crystal of LAA + NA

C6H8O6,C6H5NO2

Lapidus, Saul H.Stephens, Peter W.Arora, Kapildev K.Shattock, Tanise R.Zaworotko, Michael J.

Crystal Growth & Design (2010) 10, 10 4630

a=5.39362(16)Å   b=8.17308(25)Å   c=28.3888(9)Å

α=90°   β=90°   γ=90°

C8H7NO4

C8H7NO4

Wishkerman, SaraBernstein, JoelStephens, Peter W.

Crystal Growth & Design (2006) 6, 6 1366

a=3.9139(5)Å   b=17.538(2)Å   c=11.8693(16)Å

α=90.00°   β=90.079(4)°   γ=90.00°

C4FeN4S4,2(C4H12N),C2H3N

C4FeN4S4,2(C4H12N),C2H3N

Endrit ShurdhaCurtis E. MooreArnold L. RheingoldSaul H. LapidusPeter W. StephensAtta M. ArifJoel S. Miller

Inorganic Chemistry (2013) 52, 10583-10594

a=10.8727(2)Å   b=10.96200(10)Å   c=12.5335(2)Å

α=111.0992(9)°   β=112.9976(8)°   γ=97.0445(10)°

C10H12FeN6S2

C10H12FeN6S2

Endrit ShurdhaCurtis E. MooreArnold L. RheingoldSaul H. LapidusPeter W. StephensAtta M. ArifJoel S. Miller

Inorganic Chemistry (2013) 52, 10583-10594

a=10.7457(7)Å   b=10.7457(7)Å   c=14.4185(13)Å

α=90.00°   β=90.00°   γ=90.00°

C6H6CrN4S2

C6H6CrN4S2

Endrit ShurdhaCurtis E. MooreArnold L. RheingoldSaul H. LapidusPeter W. StephensAtta M. ArifJoel S. Miller

Inorganic Chemistry (2013) 52, 10583-10594

a=9.08966(13)Å   b=9.16685(11)Å   c=12.6894(2)Å

α=90°   β=90°   γ=90°

C6H6MnN4S2

C6H6MnN4S2

Endrit ShurdhaCurtis E. MooreArnold L. RheingoldSaul H. LapidusPeter W. StephensAtta M. ArifJoel S. Miller

Inorganic Chemistry (2013) 52, 10583-10594

a=9.0889(13)Å   b=9.0476(13)Å   c=13.1775(18)Å

α=90.00°   β=104.994(2)°   γ=90.00°

C30H48Co3N6O6S6

C30H48Co3N6O6S6

Endrit ShurdhaCurtis E. MooreArnold L. RheingoldSaul H. LapidusPeter W. StephensAtta M. ArifJoel S. Miller

Inorganic Chemistry (2013) 52, 10583-10594

a=10.0641(10)Å   b=10.2026(9)Å   c=11.1551(11)Å

α=70.675(7)°   β=71.120(5)°   γ=77.773(6)°

C18H32N2O4S2V

C18H32N2O4S2V

Endrit ShurdhaCurtis E. MooreArnold L. RheingoldSaul H. LapidusPeter W. StephensAtta M. ArifJoel S. Miller

Inorganic Chemistry (2013) 52, 10583-10594

a=15.2033(3)Å   b=10.0157(2)Å   c=16.1131(3)Å

α=90.00°   β=111.6140(13)°   γ=90.00°

C18H32N2NiO4S2

C18H32N2NiO4S2

Endrit ShurdhaCurtis E. MooreArnold L. RheingoldSaul H. LapidusPeter W. StephensAtta M. ArifJoel S. Miller

Inorganic Chemistry (2013) 52, 10583-10594

a=14.9647(8)Å   b=9.9927(5)Å   c=15.9621(8)Å

α=90.00°   β=112.0140(10)°   γ=90.00°

C7H4FeN6S2

C7H4FeN6S2

Endrit ShurdhaCurtis E. MooreArnold L. RheingoldSaul H. LapidusPeter W. StephensAtta M. ArifJoel S. Miller

Inorganic Chemistry (2013) 52, 10583-10594

a=5.5742(1)Å   b=6.13885(12)Å   c=11.4552(3)Å

α=78.4226(8)°   β=80.0358(8)°   γ=78.2382(15)°

C4CoN4S4,2(C4H12N)

C4CoN4S4,2(C4H12N)

Endrit ShurdhaCurtis E. MooreArnold L. RheingoldSaul H. LapidusPeter W. StephensAtta M. ArifJoel S. Miller

Inorganic Chemistry (2013) 52, 10583-10594

a=24.6433(2)Å   b=11.30658(11)Å   c=24.9333(3)Å

α=90°   β=94.7301(9)°   γ=90°

C6N6S6V,C0.75O0.25,4(K)

C6N6S6V,C0.75O0.25,4(K)

Endrit ShurdhaCurtis E. MooreArnold L. RheingoldSaul H. LapidusPeter W. StephensAtta M. ArifJoel S. Miller

Inorganic Chemistry (2013) 52, 10583-10594

a=8.458801(23)Å   b=8.458801(23)Å   c=9.193656(37)Å

α=90°   β=90°   γ=120°

C6N6S6Ni,C0.75O0.25,4(K)

C6N6S6Ni,C0.75O0.25,4(K)

Endrit ShurdhaCurtis E. MooreArnold L. RheingoldSaul H. LapidusPeter W. StephensAtta M. ArifJoel S. Miller

Inorganic Chemistry (2013) 52, 10583-10594

a=8.451111(78)Å   b=8.451111Å   c=9.16677(17)Å

α=90°   β=90°   γ=120°

C2CoN2S2

C2CoN2S2

Endrit ShurdhaSaul H. LapidusPeter W. StephensCurtis E. MooreArnold L. RheingoldJoel S. Miller

Inorganic Chemistry (2012) 51, 9655-9665

a=10.5959(3)Å   b=3.72504(11)Å   c=6.16597(19)Å

α=90°   β=105.862(3)°   γ=90°

C12CoN8

C12CoN8

Endrit ShurdhaSaul H. LapidusPeter W. StephensCurtis E. MooreArnold L. RheingoldJoel S. Miller

Inorganic Chemistry (2012) 51, 9655-9665

a=14.2343(5)Å   b=17.2526(10)Å   c=7.2908(3)Å

α=90°   β=90°   γ=90°

C18H12FeN8O2

C18H12FeN8O2

Endrit ShurdhaSaul H. LapidusPeter W. StephensCurtis E. MooreArnold L. RheingoldJoel S. Miller

Inorganic Chemistry (2012) 51, 9655-9665

a=7.8809(3)Å   b=11.4483(5)Å   c=11.5662(4)Å

α=90°   β=100.146(4)°   γ=90°

C18H12MnN8O2

C18H12MnN8O2

Endrit ShurdhaSaul H. LapidusPeter W. StephensCurtis E. MooreArnold L. RheingoldJoel S. Miller

Inorganic Chemistry (2012) 51, 9655-9665

a=7.8212(2)Å   b=11.6487(3)Å   c=11.6871(3)Å

α=90°   β=99.055(3)°   γ=90°

C18H12CoN8O2

C18H12CoN8O2

Endrit ShurdhaSaul H. LapidusPeter W. StephensCurtis E. MooreArnold L. RheingoldJoel S. Miller

Inorganic Chemistry (2012) 51, 9655-9665

a=7.9191(2)Å   b=11.3882(3)Å   c=11.4825(3)Å

α=90°   β=100.558(3)°   γ=90°

C8H12CrN2O2S2

C8H12CrN2O2S2

Endrit ShurdhaSaul H. LapidusPeter W. StephensCurtis E. MooreArnold L. RheingoldJoel S. Miller

Inorganic Chemistry (2012) 51, 9655-9665

a=5.734(4)Å   b=7.769(5)Å   c=7.820(5)Å

α=107.905(9)°   β=99.027(9)°   γ=98.315(9)°

C8H12FeN2O2S2

C8H12FeN2O2S2

Endrit ShurdhaSaul H. LapidusPeter W. StephensCurtis E. MooreArnold L. RheingoldJoel S. Miller

Inorganic Chemistry (2012) 51, 9655-9665

a=5.7215(8)Å   b=7.6941(11)Å   c=7.8456(12)Å

α=109.864(2)°   β=99.983(2)°   γ=97.286(2)°

C8H12MnN2O2S2

C8H12MnN2O2S2

Endrit ShurdhaSaul H. LapidusPeter W. StephensCurtis E. MooreArnold L. RheingoldJoel S. Miller

Inorganic Chemistry (2012) 51, 9655-9665

a=5.801(8)Å   b=7.874(10)Å   c=8.036(12)Å

α=110.69(3)°   β=99.104(16)°   γ=97.89(3)°

Nickel diruthenium(II,III) tetracarbonate

C4H8NiO16Ru2solvent

Kennon, Bretni S.Her, Jae-HyukStephens, Peter W.Shum, William W.Miller, Joel S.

Inorganic chemistry (2007) 46, 22 9033-9035

a=18.1943(3)Å   b=9.3573(1)Å   c=10.0465(1)Å

α=90°   β=90°   γ=90°

C16H6CoN10

C16H6CoN10

Endrit ShurdhaSaul H. LapidusPeter W. StephensCurtis E. MooreArnold L. RheingoldJoel S. Miller

Inorganic Chemistry (2012) 51, 9655-9665

a=7.5754(2)Å   b=11.4839(3)Å   c=11.1083(3)Å

α=90°   β=107.101(3)°   γ=90°

Tl2,(SeC6H2Se)

Tl2,(SeC6H2Se)

Stone, Kevin H.Turner, Dayna L.Singh, Mayank PratapVaid, Thomas P.Stephens, Peter W.

Acta Crystallographica Section B (2011) 67, 5 409-415

a=6.67438(8)Å   b=6.84998(8)Å   c=9.82649(10)Å

α=72.513(2)°   β=84.790(2)°   γ=88.659(3)°

Acetaminophen

C8H9NO2

Stone, Kevin H.Lapidus, Saul H.Stephens, Peter W.

Journal of Applied Crystallography (2009) 42, 3 385-391

a=12.8871(4)Å   b=9.3824(3)Å   c=7.1018(3)Å

α=90°   β=115.703(2)°   γ=90°

Acetaminophen

C8H9NO2

Stone, Kevin H.Lapidus, Saul H.Stephens, Peter W.

Journal of Applied Crystallography (2009) 42, 3 385-391

a=12.656(5)Å   b=9.564(3)Å   c=7.236(2)Å

α=90°   β=117.10(2)°   γ=90°

Ibuprofen

C13H18O2

Stone, Kevin H.Lapidus, Saul H.Stephens, Peter W.

Journal of Applied Crystallography (2009) 42, 3 385-391

a=14.6636(17)Å   b=7.8871(7)Å   c=10.7244(9)Å

α=90°   β=99.417(6)°   γ=90°

Ibuprofen

C13H18O2

Stone, Kevin H.Lapidus, Saul H.Stephens, Peter W.

Journal of Applied Crystallography (2009) 42, 3 385-391

a=14.6698(8)Å   b=7.8878(3)Å   c=10.7265(4)Å

α=90°   β=99.432(3)°   γ=90°

Ibuprofen

C13H18O2

Stone, Kevin H.Lapidus, Saul H.Stephens, Peter W.

Journal of Applied Crystallography (2009) 42, 3 385-391

a=14.669(2)Å   b=7.8804(11)Å   c=10.7272(12)Å

α=90°   β=99.439(8)°   γ=90°

3-amino-5-mercapto-1,2,4-triazole

C2H4N4S

Pagola, SilvinaStephens, Peter W.

Journal of Applied Crystallography (2010) 43, 2 370-376

a=9.8490(2)Å   b=12.3828(2)Å   c=3.99952(7)Å

α=90.0°   β=102.126(2)°   γ=90.0°

Nickel Telurium Trimethylphosphine C60 complex

C60,C24H72Ni9P6Te6

Lee, Chul-HoLiu, LianBejger, ChristopherTurkiewicz, AriGoko, TatsuoArguello, Carlos J.Frandsen, Benjamin A.Cheung, Sky C.Medina, TeresaMunsie, Timothy J. S.D'Ortenzio, RobertLuke, Graeme M.Besara, TigletLalancette, Roger A.Siegrist, TheoStephens, Peter W.Crowther, Andrew C.Brus, Louis E.Matsuo, YutakaNakamura, EiichiUemura, Yasutomo J.Kim, PhilipNuckolls, ColinSteigerwald, Michael L.Roy, Xavier

Journal of the American Chemical Society (2014) 141120142959006

a=14.75719(28)Å   b=14.75719(28)Å   c=31.85430(89)Å

α=90°   β=90°   γ=120°

C8H12HgN2S2

C8H12HgN2S2

Dayna L. TurnerKevin H. StonePeter W. StephensAron WalshMayank Pratap SinghThomas P. Vaid

Inorganic Chemistry (2012) 51, 370-376

a=13.1472(4)Å   b=7.1208(3)Å   c=11.6303(4)Å

α=90°   β=102.606(2)°   γ=90°

C10H17N3PbS2

C10H17N3PbS2

Dayna L. TurnerKevin H. StonePeter W. StephensAron WalshMayank Pratap SinghThomas P. Vaid

Inorganic Chemistry (2012) 51, 370-376

a=7.3106(3)Å   b=10.2825(4)Å   c=10.2809(4)Å

α=61.186(3)°   β=86.117(3)°   γ=86.053(3)°

InO4Ta

InO4Ta

Andrew C. MalingowskiPeter W. StephensAshfia HuqQingzhen HuangSyed KhalidPeter G. Khalifah

Inorganic Chemistry (2012) 51, 6096-6103

a=4.830251(16)Å   b=5.775132(17)Å   c=5.157150(14)Å

α=90.0°   β=91.42510(30)°   γ=90.0°

In0.94Ni0.04O4Ta1.02

In0.94Ni0.04O4Ta1.02

Andrew C. MalingowskiPeter W. StephensAshfia HuqQingzhen HuangSyed KhalidPeter G. Khalifah

Inorganic Chemistry (2012) 51, 6096-6103

a=4.824528(27)Å   b=5.773787(30)Å   c=5.155303(25)Å

α=90.0°   β=91.37640(30)°   γ=90.0°

NiO

NiO

Andrew C. MalingowskiPeter W. StephensAshfia HuqQingzhen HuangSyed KhalidPeter G. Khalifah

Inorganic Chemistry (2012) 51, 6096-6103

a=4.17861(22)Å   b=4.17861Å   c=4.17861Å

α=90.0°   β=90.0°   γ=90.0°

In0.91Ni0.06O4Ta1.03

In0.91Ni0.06O4Ta1.03

Andrew C. MalingowskiPeter W. StephensAshfia HuqQingzhen HuangSyed KhalidPeter G. Khalifah

Inorganic Chemistry (2012) 51, 6096-6103

a=4.818630(23)Å   b=5.770230(26)Å   c=5.152369(23)Å

α=90.0°   β=91.3467(4)°   γ=90.0°

NiO

NiO

Andrew C. MalingowskiPeter W. StephensAshfia HuqQingzhen HuangSyed KhalidPeter G. Khalifah

Inorganic Chemistry (2012) 51, 6096-6103

a=4.17710(8)Å   b=4.1771Å   c=4.1771Å

α=90.0°   β=90.0°   γ=90.0°

C2MnN2

C2MnN2

Christopher M. KareisSaul H. LapidusPeter W. StephensJoel S. Miller

Inorganic Chemistry (2012) 51, 3046-3050

a=6.14879(18)Å   b=6.14879(18)Å   c=6.14879(18)Å

α=90°   β=90°   γ=90°

C8H9F2N4Ni,F6Sb

C8H9F2N4Ni,F6Sb

Jamie L. MansonSaul H. LapidusPeter W. StephensPeter K. PetersonKimberly E. CarreiroHeather I. SoutherlandTom LancasterStephen J. BlundellAndrew J. SteelePaul A. GoddardFrancis L. PrattJohn SingletonYoshimitsu KohamaRoss D. McDonaldRico E. Del SestoNickolaus A. SmithJesper BendixSergei A. ZvyaginJinhee KangChanghoon LeeMyung-Hwan WhangboVivien S. ZapfAlex Plonczak

Inorganic Chemistry (2011) 50, 5990-6009

a=9.9359(3)Å   b=9.9359(3)Å   c=6.4471(2)Å

α=90°   β=90°   γ=90°

C8H9F2N4Ni,F6P

C8H9F2N4Ni,F6P

Jamie L. MansonSaul H. LapidusPeter W. StephensPeter K. PetersonKimberly E. CarreiroHeather I. SoutherlandTom LancasterStephen J. BlundellAndrew J. SteelePaul A. GoddardFrancis L. PrattJohn SingletonYoshimitsu KohamaRoss D. McDonaldRico E. Del SestoNickolaus A. SmithJesper BendixSergei A. ZvyaginJinhee KangChanghoon LeeMyung-Hwan WhangboVivien S. ZapfAlex Plonczak

Inorganic Chemistry (2011) 50, 5990-6009

a=9.9481(3)Å   b=9.9421(3)Å   c=12.5953(4)Å

α=90°   β=81.610(3)°   γ=90°

C12H8AgN2O4

C12H8AgN2O4

Jamie L. MansonToby J. WoodsSaul H. LapidusPeter W. StephensHeather I. SoutherlandVivien S. ZapfJohn SingletonPaul A. GoddardTom LancasterAndrew J. SteeleStephen J. Blundell

Inorganic Chemistry (2012) 51, 1989-1991

a=5.0157(1)Å   b=8.0371(2)Å   c=14.1498(4)Å

α=90°   β=98.373(3)°   γ=90°

Cl3CsHg0.95Tl0.05

Cl3CsHg0.95Tl0.05

Retuerto, MariaYin, ZhipingEmge, Thomas J.Stephens, Peter W.Li, Man-RongSarkar, TapatiCroft, Mark C.Ignatov, AlexanderYuan, Z.Zhang, S. J.Jin, ChangqingParia Sena, RobertHadermann, JokeKotliar, GabrielGreenblatt, Martha

Inorganic chemistry (2015) 54, 3 1066-1075

a=5.3750(11)Å   b=5.3750(11)Å   c=5.3750(11)Å

α=90.00°   β=90.00°   γ=90.00°

Cl3CsHg0.88Tl0.12

Cl3CsHg0.88Tl0.12

Retuerto, MariaYin, ZhipingEmge, Thomas J.Stephens, Peter W.Li, Man-RongSarkar, TapatiCroft, Mark C.Ignatov, AlexanderYuan, Z.Zhang, S. J.Jin, ChangqingParia Sena, RobertHadermann, JokeKotliar, GabrielGreenblatt, Martha

Inorganic chemistry (2015) 54, 3 1066-1075

a=5.3739(14)Å   b=5.3739(14)Å   c=5.3739(14)Å

α=90.00°   β=90.00°   γ=90.00°

Cl6Cs2Hg0.18Tl1.82

Cl6Cs2Hg0.18Tl1.82

Retuerto, MariaYin, ZhipingEmge, Thomas J.Stephens, Peter W.Li, Man-RongSarkar, TapatiCroft, Mark C.Ignatov, AlexanderYuan, Z.Zhang, S. J.Jin, ChangqingParia Sena, RobertHadermann, JokeKotliar, GabrielGreenblatt, Martha

Inorganic chemistry (2015) 54, 3 1066-1075

a=10.804(2)Å   b=10.804(2)Å   c=10.804(2)Å

α=90.00°   β=90.00°   γ=90.00°

Hydroxylapatite

Ca5HO13P3

Lee, Y. J.Stephens, P. W.Tang, Y.Li, W.Phillips, B. L.Parise, J. B.Reeder, R. J.

American Mineralogist (2009) 94, 666-675

a=9.4212Å   b=9.4212Å   c=6.8927Å

α=90°   β=90°   γ=120°

Hydroxylapatite

As0.727Ca5HO13P2.273

Lee, Y. J.Stephens, P. W.Tang, Y.Li, W.Phillips, B. L.Parise, J. B.Reeder, R. J.

American Mineralogist (2009) 94, 666-675

a=9.5075Å   b=9.5075Å   c=6.9187Å

α=90°   β=90°   γ=120°

Hydroxylapatite

As1.298Ca5HO13P1.702

Lee, Y. J.Stephens, P. W.Tang, Y.Li, W.Phillips, B. L.Parise, J. B.Reeder, R. J.

American Mineralogist (2009) 94, 666-675

a=9.5640Å   b=9.5640Å   c=6.9360Å

α=90°   β=90°   γ=120°

Johnbaumite

As1.972Ca5HO13P1.028

Lee, Y. J.Stephens, P. W.Tang, Y.Li, W.Phillips, B. L.Parise, J. B.Reeder, R. J.

American Mineralogist (2009) 94, 666-675

a=9.6311Å   b=9.6311Å   c=6.9556Å

α=90°   β=90°   γ=120°

Johnbaumite

As2.405Ca5HO13P0.595

Lee, Y. J.Stephens, P. W.Tang, Y.Li, W.Phillips, B. L.Parise, J. B.Reeder, R. J.

American Mineralogist (2009) 94, 666-675

a=9.6758Å   b=9.6758Å   c=6.9732Å

α=90°   β=90°   γ=120°

Johnbaumite

As3Ca5HO13

Lee, Y. J.Stephens, P. W.Tang, Y.Li, W.Phillips, B. L.Parise, J. B.Reeder, R. J.

American Mineralogist (2009) 94, 666-675

a=9.7156Å   b=9.7156Å   c=6.9857Å

α=90°   β=90°   γ=120°

Souzalite

Al3.858Fe1.642H14Mg1.5O24P4

Le Bail, A.Stephens, P. W.Hubert, F.

European Journal of Mineralogy (2003) 15, 719-723

a=7.2223Å   b=11.7801Å   c=5.1169Å

α=90.158°   β=109.938°   γ=81.330°

Lausenite

Fe2H10O17S3

Majzlan, J.Botez, C.Stephens, P. W.

American Mineralogist (2005) 90, 411-416

a=10.711Å   b=11.085Å   c=5.5747Å

α=90°   β=98.853°   γ=90°

C12H36Si5

C12H36Si5

Dinnebier, Robert E.Dollase, Wayne A.Helluy, XavierKümmerlen, JörgSebald, AngelikaSchmidt, Martin U.Pagola, SilvinaStephens, Peter W.van Smaalen, Sander

Acta Crystallographica Section B (1999) 55, 6 1014-1029

a=13.17158(6)Å   b=13.17158(6)Å   c=13.17158(6)Å

α=90.0°   β=90.0°   γ=90.0°

C13H36Si4

C13H36Si4

Dinnebier, Robert E.Dollase, Wayne A.Helluy, XavierKümmerlen, JörgSebald, AngelikaSchmidt, Martin U.Pagola, SilvinaStephens, Peter W.van Smaalen, Sander

Acta Crystallographica Section B (1999) 55, 6 1014-1029

a=12.609(3)Å   b=12.609(3)Å   c=12.609(3)Å

α=90.0°   β=90.0°   γ=90.0°

C13H36Si4

C13H36Si4

Dinnebier, Robert E.Dollase, Wayne A.Helluy, XavierKümmerlen, JörgSebald, AngelikaSchmidt, Martin U.Pagola, SilvinaStephens, Peter W.van Smaalen, Sander

Acta Crystallographica Section B (1999) 55, 6 1014-1029

a=12.89020(10)Å   b=12.89020(10)Å   c=12.89020(10)Å

α=90.0°   β=90.0°   γ=90.0°

C12H36Si5

C12H36Si5

Dinnebier, Robert E.Dollase, Wayne A.Helluy, XavierKümmerlen, JörgSebald, AngelikaSchmidt, Martin U.Pagola, SilvinaStephens, Peter W.van Smaalen, Sander

Acta Crystallographica Section B (1999) 55, 6 1014-1029

a=13.52180(10)Å   b=13.52180(10)Å   c=13.52180(10)Å

α=90.0°   β=90.0°   γ=90.0°

C13H36Si4

C13H36Si4

Dinnebier, Robert E.Dollase, Wayne A.Helluy, XavierKümmerlen, JörgSebald, AngelikaSchmidt, Martin U.Pagola, SilvinaStephens, Peter W.van Smaalen, Sander

Acta Crystallographica Section B (1999) 55, 6 1014-1029

a=12.78760(10)Å   b=12.78760(10)Å   c=12.78760(10)Å

α=90.0°   β=90.0°   γ=90.0°

C7H5NaO3

C7H5NaO3

Dinnebier, R. E.von Dreele, R.Stephens, P. W.Jelonek, S.Sieler, J.

Journal of Applied Crystallography (1999) 32, 761-769

a=16.0608Å   b=5.3829Å   c=3.6383Å

α=90.000°   β=92.869°   γ=90.000°

C4CoN6

C4CoN6

Manson, J. L.Kmety, C. R.Huang, Q. Z.Lynn, J. W.Bendele, G. M.Pagola, S.Stephens, P. W.Liable-Sands, L. M.Rheingold, A. L.Epstein, A. J.Miller, J. S.

Chemistry of Materials (1998) 10, 2552-2560

a=5.9985Å   b=7.0711Å   c=7.4140Å

α=90.000°   β=90.000°   γ=90.000°

C4N6Ni

C4N6Ni

Manson, J. L.Kmety, C. R.Huang, Q. Z.Lynn, J. W.Bendele, G. M.Pagola, S.Stephens, P. W.Liable-Sands, L. M.Rheingold, A. L.Epstein, A. J.Miller, J. S.

Chemistry of Materials (1998) 10, 2552-2560

a=5.9736Å   b=7.0320Å   c=7.2942Å

α=90.000°   β=90.000°   γ=90.000°