Structures by: Whited M. T.

Total: 84

<i>trans</i>-Acetyldicarbonyl(η^5^-cyclopentadienyl)[tris(3,5-dimethylphenyl)phosphane-κ<i>P</i>]molybdenum(II)

C33H35MoO3P

Whited, Matthew T.Ruffer, Eli J.Zhang, JiaRabaey, Dominique J.Janzen, Daron E.

IUCrData (2017) 2, 1 x170042

a=10.9903(11)Å   b=11.2364(11)Å   c=14.1608(14)Å

α=89.737(8)°   β=78.229(6)°   γ=60.997(7)°

C49H54BCuN4

C49H54BCuN4

Valentina A. KrylovaPeter I. DjurovichBrian L. ConleyRalf HaigesMatthew T. WhitedTravis J. WilliamsMark E. Thompson

Chem.Commun. (2014) 50, 7176

a=11.4316(4)Å   b=20.5365(8)Å   c=18.7320(7)Å

α=90°   β=105.3710(10)°   γ=90°

C35H36BCuN4

C35H36BCuN4

Valentina A. KrylovaPeter I. DjurovichBrian L. ConleyRalf HaigesMatthew T. WhitedTravis J. WilliamsMark E. Thompson

Chem.Commun. (2014) 50, 7176

a=11.5950(5)Å   b=11.6113(5)Å   c=24.2450(10)Å

α=95.8960(10)°   β=102.6010(10)°   γ=102.6940(10)°

C33H34BCuN6

C33H34BCuN6

Valentina A. KrylovaPeter I. DjurovichBrian L. ConleyRalf HaigesMatthew T. WhitedTravis J. WilliamsMark E. Thompson

Chem.Commun. (2014) 50, 7176

a=19.1311(10)Å   b=8.4051(5)Å   c=19.2334(10)Å

α=90°   β=107.483(2)°   γ=90°

C39H50BCuN4

C39H50BCuN4

Valentina A. KrylovaPeter I. DjurovichBrian L. ConleyRalf HaigesMatthew T. WhitedTravis J. WilliamsMark E. Thompson

Chem.Commun. (2014) 50, 7176

a=16.5350(15)Å   b=20.3273(19)Å   c=11.0518(10)Å

α=90.00°   β=90.00°   γ=90.00°

C39H44CuN5

C39H44CuN5

Krylova, Valentina A.Djurovich, Peter I.Whited, Matthew T.Thompson, Mark E.

Chemical communications (Cambridge, England) (2010) 46, 36 6696-6698

a=12.282(3)Å   b=14.037(3)Å   c=20.579(4)Å

α=90.00°   β=90.00°   γ=90.00°

C39H44CuN4,CF3O3S

C39H44CuN4,CF3O3S

Krylova, Valentina A.Djurovich, Peter I.Whited, Matthew T.Thompson, Mark E.

Chemical communications (Cambridge, England) (2010) 46, 36 6696-6698

a=9.2600(19)Å   b=23.636(5)Å   c=18.972(4)Å

α=90.00°   β=96.97(3)°   γ=90.00°

C55H45OP3RuSi,2(CH2Cl2)

C55H45OP3RuSi,2(CH2Cl2)

Whited, Matthew T.Zhang, JiaMa, SenjieNguyen, Binh D.Janzen, Daron E.

Dalton Trans. (2017)

a=12.5608(10)Å   b=17.3752(14)Å   c=23.586(2)Å

α=90°   β=92.353(6)°   γ=90°

C56H44F3O4P3RuSSi,C7H8

C56H44F3O4P3RuSSi,C7H8

Whited, Matthew T.Zhang, JiaMa, SenjieNguyen, Binh D.Janzen, Daron E.

Dalton Trans. (2017)

a=13.1211(17)Å   b=13.5719(18)Å   c=17.210(2)Å

α=108.220(8)°   β=103.018(7)°   γ=94.303(7)°

C56H44OP3RuS2Si,B6Cl6

C56H44OP3RuS2Si,B6Cl6

Whited, Matthew T.Zhang, JiaMa, SenjieNguyen, Binh D.Janzen, Daron E.

Dalton Trans. (2017)

a=28.1350(19)Å   b=17.6566(12)Å   c=29.6568(19)Å

α=90°   β=105.892(2)°   γ=90°

C63H64CoINP3Si

C63H64CoINP3Si

M.T. WhitedE. RivardJ.C. Peters

Chemical Communications (2006)

a=13.0701(10)Å   b=19.1387(15)Å   c=22.1493(16)Å

α=90.00°   β=102.943(3)°   γ=90.00°

C43H54CoINOP2Si

C43H54CoINOP2Si

M.T. WhitedE. RivardJ.C. Peters

Chemical Communications (2006)

a=11.6071(8)Å   b=21.6762(15)Å   c=16.8895(12)Å

α=90.00°   β=92.988(2)°   γ=90.00°

C56.5H61ClFeNP3Si

C56.5H61ClFeNP3Si

M.T.WhitedE.RivardJ.C.Peters

Chemical Communications (2006)

a=10.8604(17)Å   b=20.831(3)Å   c=23.586(4)Å

α=72.318(3)°   β=83.313(3)°   γ=89.880(3)°

C51H52ClCoNP3Si

C51H52ClCoNP3Si

M.T. WhitedE. RivardJ.C. Peters

Chemical Communications (2006)

a=12.8058(15)Å   b=17.612(2)Å   c=20.505(3)Å

α=93.701(4)°   β=91.736(4)°   γ=103.463(4)°

C28H24B2F4N4

C28H24B2F4N4

Matthew T. WhitedNiral PatelSean T. RobertsPeter I. DjurovichStephen E. BradforthMark E. Thompson

Chem.Commun. (2012) 48, 284

a=12.808(3)Å   b=12.205(2)Å   c=15.019(3)Å

α=90.00°   β=90.00°   γ=90.00°

C36H54P2Si

C36H54P2Si

Whited, Matthew T.Deetz, Alexander M.Donnell, Theodore M.Janzen, Daron E.

Dalton transactions (Cambridge, England : 2003) (2016) 45, 24 9758-9761

a=15.139(2)Å   b=9.8506(13)Å   c=22.244(3)Å

α=90°   β=92.736(7)°   γ=90°

C44H60F3O3P2RhSSi

C44H60F3O3P2RhSSi

Whited, Matthew T.Deetz, Alexander M.Donnell, Theodore M.Janzen, Daron E.

Dalton transactions (Cambridge, England : 2003) (2016) 45, 24 9758-9761

a=11.5434(5)Å   b=17.6337(7)Å   c=20.4488(8)Å

α=90°   β=90°   γ=90°

C44H36F3O3P2RhSSi

C44H36F3O3P2RhSSi

Whited, Matthew T.Deetz, Alexander M.Donnell, Theodore M.Janzen, Daron E.

Dalton transactions (Cambridge, England : 2003) (2016) 45, 24 9758-9761

a=10.9558(12)Å   b=16.9365(18)Å   c=20.550(2)Å

α=90°   β=96.203(7)°   γ=90°

C74H56F6O6P4Rh2S2Si2

C74H56F6O6P4Rh2S2Si2

Whited, Matthew T.Deetz, Alexander M.Donnell, Theodore M.Janzen, Daron E.

Dalton transactions (Cambridge, England : 2003) (2016) 45, 24 9758-9761

a=13.2957(14)Å   b=13.9009(15)Å   c=20.145(2)Å

α=90°   β=97.111(7)°   γ=90°

<i>trans</i>-Acetyldicarbonyl(η^5^-cyclopentadienyl)(1,3,5-triaza-7-phosphaadamantane)molybdenum(II)

C15H20MoN3O3P

Anstey, Mitchell R.Bost, John L.Grumman, Anna S.Kennedy, Nicholas D.Whited, Matthew T.

Acta Crystallographica Section E (2020) 76, 4 547-551

a=9.7919(14)Å   b=14.5757(13)Å   c=12.1140(12)Å

α=90°   β=107.694(6)°   γ=90°

<i>trans</i>-Acetyldicarbonyl(η^5^-cyclopentadienyl)(3,7-diacetyl-1,3,7-triaza-5-phosphabicyclo[3.3.1]nonane)molybdenum(II)

C18H24MoN3O5P

Anstey, Mitchell R.Bost, John L.Grumman, Anna S.Kennedy, Nicholas D.Whited, Matthew T.

Acta Crystallographica Section E (2020) 76, 4 547-551

a=12.8674(4)Å   b=11.6366(3)Å   c=14.4655(5)Å

α=90°   β=113.224(4)°   γ=90°

C23H23MoO3P

C23H23MoO3P

Whited, Matthew T.Hofmeister, Gretchen E.Hodges, Connor J.Jensen, Laramie T.Keyes, Samuel H.Ngamnithiporn, AurapatJanzen, Daron E.

Acta Crystallographica Section E (2014) 70, 10 216-220

a=8.2451(8)Å   b=11.6132(11)Å   c=12.5265(12)Å

α=63.617(4)°   β=77.167(5)°   γ=84.671(6)°

<i>trans</i>-Acetyldicarbonyl(η^5^- cyclopentadienyl)(methyldiphenylphosphane)molybdenum(II)

C22H21MoO3P

Whited, Matthew T.Boerma, Joseph W.McClellan, Michael J.Padilla, Christian E.Janzen, Daron E.

Acta Crystallographica Section E (2012) 68, 9 m1158-m1159

a=11.482(7)Å   b=17.648(10)Å   c=20.771(12)Å

α=90.0000°   β=90.0000°   γ=90.0000°

<i>trans</i>-Acetyldicarbonyl(η^5^-cyclopentadienyl)[tris(furan-2-yl)phosphane-κ<i>P</i>]molybdenum(II)

C21H17MoO6P

Whited, Matthew T.Bakker-Arkema, Julia G.Greenwald, Julia E.Morrill, Lucas A.Janzen, Daron E.

Acta Crystallographica Section E (2013) 69, 8 m475-m476

a=8.050(2)Å   b=15.762(4)Å   c=16.073(4)Å

α=90.0000°   β=102.852(8)°   γ=90.0000°

C64H100Ag2F6Ir2N2O8P4S2

C64H100Ag2F6Ir2N2O8P4S2

Whited, Matthew T.

Beilstein journal of organic chemistry (2012) 8, 1554-1563

a=13.8087(13)Å   b=18.1428(14)Å   c=15.5037(13)Å

α=90.00°   β=103.271(3)°   γ=90.00°

C33H50IrNOP2S4

C33H50IrNOP2S4

Whited, Matthew T.Grubbs, Robert H.

Organometallics (2009) 28, 1 161

a=16.5763(8)Å   b=10.4629(4)Å   c=23.7379(10)Å

α=90.00°   β=101.326(3)°   γ=90.00°

C33H45IrN2P2

C33H45IrN2P2

Whited, Matthew T.Grubbs, Robert H.

Organometallics (2009) 28, 1 161

a=12.9701(12)Å   b=10.4300(16)Å   c=23.824(3)Å

α=90.00°   β=95.658(4)°   γ=90.00°

C27H40IrNP2S

C27H40IrNP2S

Whited, Matthew T.Grubbs, Robert H.

Organometallics (2009) 28, 1 161

a=13.8273(10)Å   b=13.4512(9)Å   c=16.6229(12)Å

α=90.00°   β=113.660(5)°   γ=90.00°

C45H60IrN3OP2S2

C45H60IrN3OP2S2

Whited, Matthew T.Grubbs, Robert H.

Organometallics (2009) 28, 1 161

a=11.9942(12)Å   b=19.6212(19)Å   c=18.9319(19)Å

α=90.00°   β=98.997(3)°   γ=90.00°

C30H48IrNOP2

C30H48IrNOP2

Whited, Matthew T.Zhu, YanjunTimpa, Samuel D.Chen, Chun-HsingFoxman, Bruce M.Ozerov, Oleg V.Grubbs, Robert H.

Organometallics (2009) 28, 15 4560

a=10.650(3)Å   b=11.288(3)Å   c=14.491(4)Å

α=67.416(6)°   β=70.097(6)°   γ=72.263(7)°

C33H46IrNOP2

C33H46IrNOP2

Whited, Matthew T.Zhu, YanjunTimpa, Samuel D.Chen, Chun-HsingFoxman, Bruce M.Ozerov, Oleg V.Grubbs, Robert H.

Organometallics (2009) 28, 15 4560

a=9.3928(4)Å   b=15.9869(6)Å   c=20.6970(9)Å

α=90.00°   β=90.00°   γ=90.00°

C30H46Ir1N1O1P2

C30H46Ir1N1O1P2

Whited, Matthew T.Zhu, YanjunTimpa, Samuel D.Chen, Chun-HsingFoxman, Bruce M.Ozerov, Oleg V.Grubbs, Robert H.

Organometallics (2009) 28, 15 4560

a=10.6616(6)Å   b=17.4949(10)Å   c=15.7215(9)Å

α=90°   β=90°   γ=90°

C116H76Cu4I4N12,3(CH2Cl2)

C116H76Cu4I4N12,3(CH2Cl2)

Zhiwei LiuMunzarin F. QayyumChao WuMatthew T. WhitedPeter I. DjurovichKeith O. HodgsonBritt HedmanEdward I. SolomonMark E. Thompson

Journal of the American Chemical Society (2011) 133, 3700-3703

a=24.281(3)Å   b=14.6355(14)Å   c=31.244(4)Å

α=90.00°   β=101.259(9)°   γ=90.00°

C26H40IrN3P2

C26H40IrN3P2

Matthew T. WhitedRobert H. Grubbs

Journal of the American Chemical Society (2008) 130, 16476-16477

a=9.4977(10)Å   b=30.723(4)Å   c=9.5901(11)Å

α=90.00°   β=90.00°   γ=90.00°

C27H40IrNOP2,C6H6

C27H40IrNOP2,C6H6

Matthew T. WhitedRobert H. Grubbs

Journal of the American Chemical Society (2008) 130, 5874-5875

a=12.1315(15)Å   b=9.6222(12)Å   c=27.912(3)Å

α=90.00°   β=95.130(3)°   γ=90.00°

C31H50IrNOP2

C31H50IrNOP2

Matthew T. WhitedRobert H. Grubbs

Journal of the American Chemical Society (2008) 130, 5874-5875

a=15.554(4)Å   b=11.303(3)Å   c=18.303(4)Å

α=90.00°   β=91.557(8)°   γ=90.00°

C30H20

C30H20

Sean T. RobertsR. Eric McAnallyJoseph N. MastronDavid H. WebberMatthew T. WhitedRichard L. BrutcheyMark E. ThompsonStephen E. Bradforth

Journal of the American Chemical Society (2012) 134, 6388-6400

a=8.095(3)Å   b=11.075(3)Å   c=11.901(4)Å

α=100.436(5)°   β=99.633(5)°   γ=107.409(5)°

(H[SiPiPr3])

C36H55P3Si

Matthew T. WhitedNeal P. MankadYunho LeePaul F. ObladJonas C. Peters

Inorganic Chemistry (2009) 48, 2507-2517

a=11.3718(3)Å   b=11.5291(4)Å   c=16.4561(5)Å

α=96.135(2)°   β=105.964(2)°   γ=116.084(2)°

[SiPiPr3]CoCl

C36H54ClCoP3Si

Matthew T. WhitedNeal P. MankadYunho LeePaul F. ObladJonas C. Peters

Inorganic Chemistry (2009) 48, 2507-2517

a=16.149(5)Å   b=17.085(4)Å   c=25.497(6)Å

α=90.00°   β=90.00°   γ=90.00°

[SiPiPr3]NiCl

C42H60ClNiP3Si

Matthew T. WhitedNeal P. MankadYunho LeePaul F. ObladJonas C. Peters

Inorganic Chemistry (2009) 48, 2507-2517

a=12.916(4)Å   b=15.540(3)Å   c=20.130(5)Å

α=90.00°   β=92.32(3)°   γ=90.00°

[SiPiPr3]Ir(H)(Cl)

C42H61ClIrP3Si

Matthew T. WhitedNeal P. MankadYunho LeePaul F. ObladJonas C. Peters

Inorganic Chemistry (2009) 48, 2507-2517

a=19.5771(15)Å   b=11.0445(9)Å   c=18.5937(14)Å

α=90.00°   β=90.00°   γ=90.00°

(H[SiPiPr3])FeCl2

C36H55Cl2FeP3Si

Matthew T. WhitedNeal P. MankadYunho LeePaul F. ObladJonas C. Peters

Inorganic Chemistry (2009) 48, 2507-2517

a=13.0548(19)Å   b=13.718(3)Å   c=22.356(6)Å

α=90.00°   β=104.102(11)°   γ=90.00°

[SiPiPr3]FeCl

C42H60ClFeP3Si

Matthew T. WhitedNeal P. MankadYunho LeePaul F. ObladJonas C. Peters

Inorganic Chemistry (2009) 48, 2507-2517

a=12.913(4)Å   b=15.513(4)Å   c=20.296(8)Å

α=90.00°   β=92.33(3)°   γ=90.00°

[SiPiPr3]Ir(N2)

C36H54IrN2P3Si

Matthew T. WhitedNeal P. MankadYunho LeePaul F. ObladJonas C. Peters

Inorganic Chemistry (2009) 48, 2507-2517

a=15.98(2)Å   b=17.151(12)Å   c=25.95(2)Å

α=90.00°   β=90.00°   γ=90.00°

[SiPiPr3]Fe(N2)

C42H60Cl0.04FeN1.92P3Si

Matthew T. WhitedNeal P. MankadYunho LeePaul F. ObladJonas C. Peters

Inorganic Chemistry (2009) 48, 2507-2517

a=12.759(2)Å   b=15.4865(19)Å   c=20.561(4)Å

α=90.00°   β=92.006(16)°   γ=90.00°

[SiPiPr3]Co(N2)

C36H54CoN2P3Si,C6H6

Matthew T. WhitedNeal P. MankadYunho LeePaul F. ObladJonas C. Peters

Inorganic Chemistry (2009) 48, 2507-2517

a=12.6932(9)Å   b=15.4021(11)Å   c=20.6008(15)Å

α=90.00°   β=91.9160(10)°   γ=90.00°

[SiP3]Fe(OTf)

C59H50F3FeO3P3SSi

Matthew T. WhitedNeal P. MankadYunho LeePaul F. ObladJonas C. Peters

Inorganic Chemistry (2009) 48, 2507-2517

a=22.7568(7)Å   b=16.8912(5)Å   c=26.7730(8)Å

α=90.00°   β=90.00°   γ=90.00°

{[SiPiPr3]Co(OTf)}{OTf}

C38H54CoF6O6P3S2Si

Matthew T. WhitedNeal P. MankadYunho LeePaul F. ObladJonas C. Peters

Inorganic Chemistry (2009) 48, 2507-2517

a=10.8159(10)Å   b=14.3316(13)Å   c=28.152(3)Å

α=90.00°   β=90.00°   γ=90.00°

C35H25IrN6O4

C35H25IrN6O4

Kenneth HansonArnold TamayoVyacheslav V. DievMatthew T. WhitedPeter I. DjurovichMark E. Thompson

Inorganic Chemistry (2010) 49, 6077-6084

a=10.5093(15)Å   b=26.688(4)Å   c=10.6929(15)Å

α=90.00°   β=107.259(2)°   γ=90.00°

C33H25IrN6

C33H25IrN6

Kenneth HansonArnold TamayoVyacheslav V. DievMatthew T. WhitedPeter I. DjurovichMark E. Thompson

Inorganic Chemistry (2010) 49, 6077-6084

a=14.4741(17)Å   b=15.3546(18)Å   c=23.826(3)Å

α=90.00°   β=90.00°   γ=90.00°

C36H31IrN6

C36H31IrN6

Kenneth HansonArnold TamayoVyacheslav V. DievMatthew T. WhitedPeter I. DjurovichMark E. Thompson

Inorganic Chemistry (2010) 49, 6077-6084

a=10.0797(10)Å   b=12.0765(13)Å   c=25.615(3)Å

α=96.441(2)°   β=98.012(2)°   γ=93.279(2)°

C28H29NO2Pt

C28H29NO2Pt

Alberto BossiAndreas F. RauschMarkus J. LeitlRafał CzerwieniecMatthew T. WhitedPeter I. DjurovichHartmut YersinMark E. Thompson

Inorganic Chemistry (2013) 52, 12403-12415

a=26.538(8)Å   b=13.985(4)Å   c=12.769(4)Å

α=90.00°   β=90.00°   γ=90.00°

C22H27NO2Pt

C22H27NO2Pt

Alberto BossiAndreas F. RauschMarkus J. LeitlRafał CzerwieniecMatthew T. WhitedPeter I. DjurovichHartmut YersinMark E. Thompson

Inorganic Chemistry (2013) 52, 12403-12415

a=10.6262(7)Å   b=11.2230(8)Å   c=19.4955(13)Å

α=87.6800(10)°   β=82.0780(10)°   γ=64.0590(10)°

C45H50ClFeNP2Si

C45H50ClFeNP2Si

M.T. WhitedE. RivardJ.C. Peters

Chemical Communications (2006)

a=9.793(3)Å   b=9.371(3)Å   c=44.610(12)Å

α=90.00°   β=94.581(4)°   γ=90.00°

[SiPiPr3]Co(CO)

C37H54CoOP3Si

Matthew T. WhitedNeal P. MankadYunho LeePaul F. ObladJonas C. Peters

Inorganic Chemistry (2009) 48, 2507-2517

a=16.13(2)Å   b=17.050(14)Å   c=25.54(2)Å

α=90.00°   β=90.00°   γ=90.00°

C16H15NO2Pt

C16H15NO2Pt

Alberto BossiAndreas F. RauschMarkus J. LeitlRafał CzerwieniecMatthew T. WhitedPeter I. DjurovichHartmut YersinMark E. Thompson

Inorganic Chemistry (2013) 52, 12403-12415

a=9.2613(8)Å   b=7.6397(7)Å   c=19.4401(18)Å

α=90.00°   β=99.143(2)°   γ=90.00°

C24H27NO2Pt

C24H27NO2Pt

Alberto BossiAndreas F. RauschMarkus J. LeitlRafał CzerwieniecMatthew T. WhitedPeter I. DjurovichHartmut YersinMark E. Thompson

Inorganic Chemistry (2013) 52, 12403-12415

a=12.6435(6)Å   b=12.6465(6)Å   c=13.0440(6)Å

α=90.00°   β=90.00°   γ=90.00°

C28H48Cu2I2N2P2

C28H48Cu2I2N2P2

Zhiwei LiuPeter I. DjurovichMatthew T. WhitedMark E. Thompson

Inorganic Chemistry (2012) 51, 230-236

a=12.6422(16)Å   b=13.595(2)Å   c=20.171(3)Å

α=90.00°   β=90.725(15)°   γ=90.00°

C36H32Cu4I4N2P2

C36H32Cu4I4N2P2

Zhiwei LiuPeter I. DjurovichMatthew T. WhitedMark E. Thompson

Inorganic Chemistry (2012) 51, 230-236

a=12.160(3)Å   b=9.482(2)Å   c=18.363(4)Å

α=90.00°   β=109.190(4)°   γ=90.00°

C28H48Cu4I4N2P2

C28H48Cu4I4N2P2

Zhiwei LiuPeter I. DjurovichMatthew T. WhitedMark E. Thompson

Inorganic Chemistry (2012) 51, 230-236

a=11.0911(18)Å   b=9.7392(16)Å   c=17.769(3)Å

α=90.00°   β=104.157(2)°   γ=90.00°

C24H40Cu4I4N2P2

C24H40Cu4I4N2P2

Zhiwei LiuPeter I. DjurovichMatthew T. WhitedMark E. Thompson

Inorganic Chemistry (2012) 51, 230-236

a=10.5492(15)Å   b=9.4558(13)Å   c=17.416(2)Å

α=90.00°   β=100.709(2)°   γ=90.00°

C36H56Cu4I4N2P2

C36H56Cu4I4N2P2

Zhiwei LiuPeter I. DjurovichMatthew T. WhitedMark E. Thompson

Inorganic Chemistry (2012) 51, 230-236

a=9.6249(4)Å   b=19.2866(9)Å   c=22.5310(10)Å

α=90.00°   β=90.00°   γ=90.00°

C20H32Cu4I4N2P2

C20H32Cu4I4N2P2

Zhiwei LiuPeter I. DjurovichMatthew T. WhitedMark E. Thompson

Inorganic Chemistry (2012) 51, 230-236

a=9.415(5)Å   b=10.018(6)Å   c=10.210(6)Å

α=69.313(8)°   β=66.662(8)°   γ=62.806(7)°

C44H40ClP2RhSi

C44H40ClP2RhSi

Whited, Matthew T.Deetz, Alexander M.Boerma, Joseph W.DeRosha, Daniel E.Janzen, Daron E.

Organometallics (2014) 33, 19 5070

a=14.946(3)Å   b=15.964(2)Å   c=15.372(3)Å

α=90°   β=98.558(3)°   γ=90°

C36H30P2Si

C36H30P2Si

Whited, Matthew T.Deetz, Alexander M.Boerma, Joseph W.DeRosha, Daniel E.Janzen, Daron E.

Organometallics (2014) 33, 19 5070

a=10.0297(10)Å   b=11.3624(12)Å   c=14.2414(15)Å

α=110.145(8)°   β=90.794(6)°   γ=101.593(7)°

C38H28ClO2P2RhSi

C38H28ClO2P2RhSi

Whited, Matthew T.Deetz, Alexander M.Boerma, Joseph W.DeRosha, Daniel E.Janzen, Daron E.

Organometallics (2014) 33, 19 5070

a=11.169(2)Å   b=19.743(4)Å   c=15.320(3)Å

α=90°   β=96.932(7)°   γ=90°

C24H46N2P2Si

C24H46N2P2Si

Whited, Matthew T.Deetz, Alexander M.Boerma, Joseph W.DeRosha, Daniel E.Janzen, Daron E.

Organometallics (2014) 33, 19 5070

a=11.8909(18)Å   b=23.798(4)Å   c=39.233(6)Å

α=90°   β=90°   γ=90°

C25H44ClN2OP2RhSi

C25H44ClN2OP2RhSi

Whited, Matthew T.Deetz, Alexander M.Boerma, Joseph W.DeRosha, Daniel E.Janzen, Daron E.

Organometallics (2014) 33, 19 5070

a=10.0902(7)Å   b=18.1640(13)Å   c=16.7587(12)Å

α=90°   β=104.978(4)°   γ=90°

C24H58NP2RhSi2

C24H58NP2RhSi2

Whited, Matthew T.Kosanovich, Alex J.Janzen, Daron E.

Organometallics (2014) 33, 6 1416

a=20.456(4)Å   b=17.299(3)Å   c=9.0187(17)Å

α=90°   β=90°   γ=90°

C38H80N2O2P4Rh2

C38H80N2O2P4Rh2

Whited, Matthew T.Kosanovich, Alex J.Janzen, Daron E.

Organometallics (2014) 33, 6 1416

a=20.1192(17)Å   b=9.0097(8)Å   c=25.544(2)Å

α=90°   β=108.396(8)°   γ=90°

C24H46P2Rh,CF3O3S,C6H6

C24H46P2Rh,CF3O3S,C6H6

Whited, Matthew T.Kosanovich, Alex J.Janzen, Daron E.

Organometallics (2014) 33, 6 1416

a=10.9982(13)Å   b=16.2326(19)Å   c=18.993(2)Å

α=94.414(7)°   β=95.937(7)°   γ=90.425(6)°

C22H49P2RhS3Si

C22H49P2RhS3Si

Whited, Matthew T.Qiu, LisaKosanovich, Alex J.Janzen, Daron E.

Inorganic chemistry (2015) 54, 7 3670-3679

a=10.881(2)Å   b=14.908(3)Å   c=18.667(4)Å

α=90°   β=100.277(7)°   γ=90°

C37H80P4Rh2S3,C4H10O

C37H80P4Rh2S3,C4H10O

Whited, Matthew T.Qiu, LisaKosanovich, Alex J.Janzen, Daron E.

Inorganic chemistry (2015) 54, 7 3670-3679

a=11.2078(19)Å   b=20.257(3)Å   c=22.118(4)Å

α=90°   β=95.349(2)°   γ=90°

C26H58NO2P2RhS2Si2

C26H58NO2P2RhS2Si2

Whited, Matthew T.Qiu, LisaKosanovich, Alex J.Janzen, Daron E.

Inorganic chemistry (2015) 54, 7 3670-3679

a=12.893(3)Å   b=21.409(5)Å   c=27.026(6)Å

α=90°   β=90°   γ=90°

C50H90N4P4Rh2

C50H90N4P4Rh2

Whited, Matthew T.Qiu, LisaKosanovich, Alex J.Janzen, Daron E.

Inorganic chemistry (2015) 54, 7 3670-3679

a=28.2036(17)Å   b=11.4050(7)Å   c=33.691(2)Å

α=90°   β=93.663(4)°   γ=90°

C35H65IrN3P3

C35H65IrN3P3

Whited, Matthew T.Grubbs, Robert H.

Organometallics (2008) 27, 22 5737

a=10.5431(9)Å   b=16.3967(13)Å   c=21.8123(18)Å

α=90.00°   β=94.963(2)°   γ=90.00°

C33H50IrNO3P2

C33H50IrNO3P2

Whited, Matthew T.Grubbs, Robert H.

Organometallics (2008) 27, 22 5737

a=10.640(3)Å   b=11.968(3)Å   c=14.554(4)Å

α=85.152(5)°   β=75.576(4)°   γ=67.644(4)°

C27H38IIrP2

C27H38IIrP2

Romero, Patricio E.Whited, Matthew T.Grubbs, Robert H.

Organometallics (2008) 27, 14 3422

a=7.4979(4)Å   b=16.7508(10)Å   c=20.6495(12)Å

α=90.00°   β=90.00°   γ=90.00°

C27H37IrOP2

C27H37IrOP2

Romero, Patricio E.Whited, Matthew T.Grubbs, Robert H.

Organometallics (2008) 27, 14 3422

a=8.2807(6)Å   b=14.1531(10)Å   c=11.5174(9)Å

α=90.00°   β=106.646(2)°   γ=90.00°

C27H42IrNOP2,C6H6

C27H42IrNOP2,C6H6

Romero, Patricio E.Whited, Matthew T.Grubbs, Robert H.

Organometallics (2008) 27, 14 3422

a=11.0661(3)Å   b=14.3670(4)Å   c=20.2719(5)Å

α=90.00°   β=90.00°   γ=90.00°

C31H50IrNOP2

C31H50IrNOP2

Romero, Patricio E.Whited, Matthew T.Grubbs, Robert H.

Organometallics (2008) 27, 14 3422

a=15.554(4)Å   b=11.303(3)Å   c=18.303(4)Å

α=90.00°   β=91.557(8)°   γ=90.00°

C38H41CuF6N4

C38H41CuF6N4

Krylova, Valentina A.Djurovich, Peter I.Aronson, Jacob W.Haiges, RalfWhited, Matthew T.Thompson, Mark E.

Organometallics (2012) 31, 22 7983

a=21.3154(8)Å   b=18.0984(7)Å   c=21.5042(8)Å

α=90°   β=119.4410(10)°   γ=90°

C36H41CuF3N5

C36H41CuF3N5

Krylova, Valentina A.Djurovich, Peter I.Aronson, Jacob W.Haiges, RalfWhited, Matthew T.Thompson, Mark E.

Organometallics (2012) 31, 22 7983

a=11.8209(11)Å   b=14.4304(14)Å   c=20.0438(18)Å

α=90.00°   β=104.402(2)°   γ=90.00°