Structures by: Willis A. C.

Total: 760

C19H20O7

C19H20O7

Craig I. Turner Michael N. Paddon-Row Anthony C. Willis Michael S. Sherburn

Journal of Organic Chemistry (2005) 70, 1154-1163

a=8.81620(10)Å   b=10.3256(2)Å   c=19.0296(3)Å

α=90°   β=94.8911(6)°   γ=90°

C19H20O7

C19H20O7

Craig I. Turner Michael N. Paddon-Row Anthony C. Willis Michael S. Sherburn

Journal of Organic Chemistry (2005) 70, 1154-1163

a=10.81400(10)Å   b=13.7985(2)Å   c=23.5044(3)Å

α=90°   β=90°   γ=90°

C9H9BrO4

C9H9BrO4

Aymeric CerviPaul AillardNourallah HazeriLaurent PetitChristina L. L. ChaiAnthony C. WillisMartin G. Banwell

Journal of Organic Chemistry (2013) 78, 9876-9882

a=8.2473(2)Å   b=10.0370(2)Å   c=13.0591(2)Å

α=69.3110(12)°   β=79.7077(14)°   γ=70.2086(12)°

C20H30O4Si

C20H30O4Si

Aymeric CerviPaul AillardNourallah HazeriLaurent PetitChristina L. L. ChaiAnthony C. WillisMartin G. Banwell

Journal of Organic Chemistry (2013) 78, 9876-9882

a=8.5088(7)Å   b=15.6234(15)Å   c=18.1523(13)Å

α=112.714(4)°   β=95.776(5)°   γ=104.045(4)°

C13H20O4

C13H20O4

Aymeric CerviPaul AillardNourallah HazeriLaurent PetitChristina L. L. ChaiAnthony C. WillisMartin G. Banwell

Journal of Organic Chemistry (2013) 78, 9876-9882

a=12.7674(3)Å   b=6.7691(2)Å   c=16.1154(5)Å

α=90°   β=99.797(2)°   γ=90°

C15H20O3

C15H20O3

Tristan A. ReekieMartin G. BanwellAnthony C. Willis

Journal of Organic Chemistry (2013) 78, 7100-7111

a=9.0559(3)Å   b=6.2328(1)Å   c=12.1773(3)Å

α=90°   β=103.6576(15)°   γ=90°

C14H18O3

C14H18O3

Tristan A. ReekieMartin G. BanwellAnthony C. Willis

Journal of Organic Chemistry (2013) 78, 7100-7111

a=8.6862(1)Å   b=11.1107(2)Å   c=26.1274(4)Å

α=90°   β=90°   γ=90°

C25H16N2O2

C25H16N2O2

Alireza ShakooriJohn B. BremnerAnthony C. WillisRachada HaritakunPaul A. Keller

Journal of Organic Chemistry (2013) 78, 7639-7647

a=8.4251(2)Å   b=10.9245(3)Å   c=20.7242(4)Å

α=90°   β=100.7475(15)°   γ=90°

C29H18N2O4

C29H18N2O4

Alireza ShakooriJohn B. BremnerAnthony C. WillisRachada HaritakunPaul A. Keller

Journal of Organic Chemistry (2013) 78, 7639-7647

a=7.5927(2)Å   b=9.4172(3)Å   c=16.2992(5)Å

α=76.3835(14)°   β=88.6282(18)°   γ=78.0391(19)°

C17H11NO4

C17H11NO4

Hye Sun KimMartin G. BanwellAnthony C. Willis

Journal of Organic Chemistry (2013) 78, 5103-5109

a=4.9959(1)Å   b=15.4251(5)Å   c=16.5839(6)Å

α=90°   β=90°   γ=90°

C18H13NO4

C18H13NO4

Hye Sun KimMartin G. BanwellAnthony C. Willis

Journal of Organic Chemistry (2013) 78, 5103-5109

a=4.9832(3)Å   b=16.4133(7)Å   c=16.4878(7)Å

α=90°   β=90°   γ=90°

C30H18Br2N2O8

C30H18Br2N2O8

Hye Sun KimMartin G. BanwellAnthony C. Willis

Journal of Organic Chemistry (2013) 78, 5103-5109

a=21.9693(7)Å   b=9.6562(3)Å   c=16.0510(5)Å

α=90°   β=126.4796(15)°   γ=90°

C35H39BN7PRhS3,Cl,2.53(CHCl3),0.3(H2O)

C35H39BN7PRhS3,Cl,2.53(CHCl3),0.3(H2O)

Crossley, Ian R.Hill, Anthony F.Willis, Anthony C.

Organometallics (2006) 25, 1 289-299

a=42.9100(12)Å   b=9.8725(2)Å   c=27.4618(8)Å

α=90°   β=112.2130(10)°   γ=90°

C39H39BN7PRhS3,Cl,3(CHCl3)

C39H39BN7PRhS3,Cl,3(CHCl3)

Crossley, Ian R.Hill, Anthony F.Willis, Anthony C.

Organometallics (2006) 25, 1 289-299

a=10.8109(2)Å   b=14.8035(3)Å   c=18.0613(4)Å

α=86.3691(10)°   β=73.2647(12)°   γ=74.3865(13)°

2(C18H33BN6P2RhS3),2(Cl),2(H2O),CHCl3,0.5(C4H10O)

2(C18H33BN6P2RhS3),2(Cl),2(H2O),CHCl3,0.5(C4H10O)

Crossley, Ian R.Hill, Anthony F.Willis, Anthony C.

Organometallics (2006) 25, 1 289-299

a=9.1802(2)Å   b=21.9173(5)Å   c=32.4110(8)Å

α=90°   β=90°   γ=90°

C12H21NO4Ru

C12H21NO4Ru

Martin A. Bennett Matthew J. Byrnes Anthony C. Willis

Organometallics (2003)

a=11.869(3)Å   b=10.400(4)Å   c=12.247(2)Å

α=90°   β=103.26(1)°   γ=90°

C17H23NO4Ru

C17H23NO4Ru

Martin A. Bennett Matthew J. Byrnes Anthony C. Willis

Organometallics (2003)

a=8.340(1)Å   b=17.307(1)Å   c=13.026(1)Å

α=90°   β=99.324(9)°   γ=90°

C14H22O4Ru

C14H22O4Ru

Martin A. BennettMatthew J. ByrnesAnthony C. Willis

Organometallics (2003)

a=7.6278(2)Å   b=8.9725(4)Å   c=12.5027(5)Å

α=76.719(2)°   β=74.620(2)°   γ=70.659(2)°

C36H46B2Mo2N12O4,1.5(C6H14)

C36H46B2Mo2N12O4,1.5(C6H14)

Colebatch, Annie L.Hill, Anthony F.Shang, RongWillis, Anthony C.

Organometallics (2010) 29, 23 6482

a=24.5979(3)Å   b=25.1666(3)Å   c=17.0814(2)Å

α=90°   β=101.4488(7)°   γ=90°

C36H42B2Mo2N12O4,4(CH2Cl2)

C36H42B2Mo2N12O4,4(CH2Cl2)

Colebatch, Annie L.Hill, Anthony F.Shang, RongWillis, Anthony C.

Organometallics (2010) 29, 23 6482

a=11.1842(3)Å   b=15.2482(4)Å   c=16.5134(4)Å

α=90°   β=100.3897(17)°   γ=90°

C21H28B1Mo1N7O2S1

C21H28B1Mo1N7O2S1

Colebatch, Annie L.Hill, Anthony F.Shang, RongWillis, Anthony C.

Organometallics (2010) 29, 23 6482

a=11.2972(3)Å   b=17.1306(7)Å   c=14.0712(4)Å

α=90°   β=107.1193(18)°   γ=90°

C36H42B2Mo2N12O4,4(CH2Cl2)

C36H42B2Mo2N12O4,4(CH2Cl2)

Colebatch, Annie L.Cordiner, Richard L.Hill, Anthony F.Nguyen, Kelly T. H. D.Shang, RongWillis, Anthony C.

Organometallics (2009) 28, 15 4394

a=11.1842(3)Å   b=15.2482(4)Å   c=16.5134(4)Å

α=90°   β=100.3897(17)°   γ=90°

C76H74B2N12O4P2PtW2

C76H74B2N12O4P2PtW2

Dewhurst, Rian D.Hill, Anthony F.Willis, Anthony C.

Organometallics (2009) 28, 16 4735

a=10.5351(2)Å   b=11.8670(3)Å   c=16.8579(5)Å

α=104.3241(14)°   β=93.141(2)°   γ=114.2238(17)°

C16H28BClN6O2RuS5,0.5(CH2Cl2)

C16H28BClN6O2RuS5,0.5(CH2Cl2)

Abernethy, Robyn J.Hill, Anthony F.Tshabang, NeverWillis, Anthony C.Young, Rowan D.

Organometallics (2009) 28, 2 488-492

a=10.6309(2)Å   b=10.7378(4)Å   c=12.8683(4)Å

α=109.1434(13)°   β=93.297(2)°   γ=98.6958(18)°

C44H43BN4P2RuS2,2(CH2Cl2)

C44H43BN4P2RuS2,2(CH2Cl2)

Abernethy, Robyn J.Hill, Anthony F.Tshabang, NeverWillis, Anthony C.Young, Rowan D.

Organometallics (2009) 28, 2 488-492

a=13.6077(1)Å   b=19.4945(2)Å   c=20.7775(2)Å

α=105.8160(6)°   β=100.3594(6)°   γ=109.6253(5)°

C16H38O4P4Ru

C16H38O4P4Ru

Allen, Olivia R.Dalgarno, Scott J.Field, Leslie D.Jensen, PaulWillis, Anthony C.

Organometallics (2009) 28, 8 2385

a=9.0425(1)Å   b=9.0425(1)Å   c=29.0790(4)Å

α=90°   β=90°   γ=90°

C13H36P4Ru

C13H36P4Ru

Allen, Olivia R.Dalgarno, Scott J.Field, Leslie D.Jensen, PaulWillis, Anthony C.

Organometallics (2009) 28, 8 2385

a=17.6025(14)Å   b=9.1856(7)Å   c=12.2908(9)Å

α=90.00°   β=90.00°   γ=90.00°

OA572

C28H72O4P8Ru2

Allen, Olivia R.Dalgarno, Scott J.Field, Leslie D.Jensen, PaulWillis, Anthony C.

Organometallics (2009) 28, 8 2385

a=17.1167(8)Å   b=8.9490(5)Å   c=28.1916(14)Å

α=90.00°   β=90.00°   γ=90.00°

C13H32O3P4Ru,0.5(C6D6),3(H2O)

C13H32O3P4Ru,0.5(C6D6),3(H2O)

Allen, Olivia R.Dalgarno, Scott J.Field, Leslie D.Jensen, PaulWillis, Anthony C.

Organometallics (2009) 28, 8 2385

a=9.709(2)Å   b=18.743(3)Å   c=14.004(2)Å

α=90.00°   β=101.036(2)°   γ=90.00°

C14H27AuBN4PS2

C14H27AuBN4PS2

Hill, Anthony F.Smith, Matthew K.Tshabang, NeverWillis, Anthony C.

Organometallics (2010) 29, 2 473-477

a=7.712(5)Å   b=24.039(5)Å   c=11.097(5)Å

α=90°   β=90°   γ=90°

C27H27BIrN4OPS2,CHCl3

C27H27BIrN4OPS2,CHCl3

Crossley, Ian R.Hill, Anthony F.Willis, Anthony C.

Organometallics (2010) 29, 2 326

a=9.3509(2)Å   b=9.7847(2)Å   c=19.1038(5)Å

α=92.7592(16)°   β=99.6612(11)°   γ=110.9262(14)°

C31H31BIrN6OPS3,1.34(CH2Cl2)

C31H31BIrN6OPS3,1.34(CH2Cl2)

Crossley, Ian R.Hill, Anthony F.Willis, Anthony C.

Organometallics (2010) 29, 2 326

a=39.7468(7)Å   b=9.6094(1)Å   c=20.3913(4)Å

α=90°   β=99.9747(10)°   γ=90°

C20H42Au2BN4P2S2,C15H12BMo2N4O7S2,CH2Cl2

C20H42Au2BN4P2S2,C15H12BMo2N4O7S2,CH2Cl2

Hill, Anthony F.Smith, Matthew K.Tshabang, NeverWillis, Anthony C.

Organometallics (2010) 29, 2 473-477

a=14.9617(2)Å   b=15.0139(2)Å   c=15.7497(2)Å

α=70.5816(9)°   β=64.4391(8)°   γ=62.1557(8)°

C36H40BMoN6O3Sn

C36H40BMoN6O3Sn

Cordiner, Richard L.Hill, Anthony F.Shang, RongWillis, Anthony C.

Organometallics (2011) 30, 1 139

a=8.0951(3)Å   b=9.9690(5)Å   c=23.1787(11)Å

α=82.3925(18)°   β=88.749(2)°   γ=77.050(2)°

C36H37BGeMoN6O2,C6H6

C36H37BGeMoN6O2,C6H6

Cordiner, Richard L.Hill, Anthony F.Shang, RongWillis, Anthony C.

Organometallics (2011) 30, 1 139

a=8.2963(2)Å   b=10.2762(2)Å   c=23.7893(4)Å

α=82.7608(11)°   β=88.3253(9)°   γ=80.2278(9)°

Tp'(CO)~2~Mo(_-C)SiPh~3~'

C36H37B1Mo1N6O2Si1

Cordiner, Richard L.Hill, Anthony F.Shang, RongWillis, Anthony C.

Organometallics (2011) 30, 1 139

a=10.3477(2)Å   b=12.1245(3)Å   c=14.3177(3)Å

α=101.4756(11)°   β=91.0133(14)°   γ=95.6878(13)°

C36H37B1Mo1N6O2Pb1

C36H37B1Mo1N6O2Pb1

Cordiner, Richard L.Hill, Anthony F.Shang, RongWillis, Anthony C.

Organometallics (2011) 30, 1 139

a=15.4068(2)Å   b=15.9388(3)Å   c=14.5102(3)Å

α=90°   β=90°   γ=90°

Tp*(CO)~2~MoC-BCat

C24H26B2Mo1N6O4

Hill, Anthony F.Shang, RongWillis, Anthony C.

Organometallics (2011) 30, 12 3237

a=14.8466(2)Å   b=10.5615(2)Å   c=16.8143(2)Å

α=90°   β=90°   γ=90°

C43H43B3OP2Ru

C43H43B3OP2Ru

Hill, Anthony F.Lee, Stephen B.Park, JamesShang, RongWillis, Anthony C.

Organometallics (2010) 29, 21 5661

a=10.0015(2)Å   b=24.0151(5)Å   c=15.6420(3)Å

α=90°   β=90°   γ=90°

[RuCL(CO){B(NCH~2~PPh~2~)~2~C~6~H~4~}(PPh~3~)]

C51H43B1Cl1N2O1P3Ru1

Hill, Anthony F.Lee, Stephen B.Park, JamesShang, RongWillis, Anthony C.

Organometallics (2010) 29, 21 5661

a=13.1923(17)Å   b=18.0267(17)Å   c=20.126(3)Å

α=74.252(8)°   β=80.577(4)°   γ=87.994(8)°

C3H6As4O3

C3H6As4O3

Lu, DiRae, A. DavidSalem, GeoffWeir, Michelle L.Willis, Anthony C.Wild, S. Bruce

Organometallics (2010) 29, 1 32

a=7.3954(6)Å   b=11.4072(10)Å   c=11.5554(9)Å

α=118.772(3)°   β=90.380(3)°   γ=90.766(3)°

C84H80As4Pt2,CH2Cl2

C84H80As4Pt2,CH2Cl2

Martin A. BennettSuresh K. BhargavaEddie Chung-Chin ChengWai Han LamTerence Kwok-Ming LeeSteven H. PrivérJörg WaglerAnthony C. WillisWing-Wah Yam, Vivian

Journal of the American Chemical Society (2010) 132, 7094-7103

a=12.65300(10)Å   b=15.2413(2)Å   c=21.8305(2)Å

α=95.1830(10)°   β=106.8150(10)°   γ=112.2230(10)°

C84H80As4Pt2,1.4(CH2Cl2)

C84H80As4Pt2,1.4(CH2Cl2)

Martin A. BennettSuresh K. BhargavaEddie Chung-Chin ChengWai Han LamTerence Kwok-Ming LeeSteven H. PrivérJörg WaglerAnthony C. WillisWing-Wah Yam, Vivian

Journal of the American Chemical Society (2010) 132, 7094-7103

a=12.25080(10)Å   b=12.28270(10)Å   c=12.7841(2)Å

α=87.5500(10)°   β=79.1420(10)°   γ=83.8340(10)°

C84H80As4Cl2Pt2,2(CH2Cl2)

C84H80As4Cl2Pt2,2(CH2Cl2)

Martin A. BennettSuresh K. BhargavaEddie Chung-Chin ChengWai Han LamTerence Kwok-Ming LeeSteven H. PrivérJörg WaglerAnthony C. WillisWing-Wah Yam, Vivian

Journal of the American Chemical Society (2010) 132, 7094-7103

a=19.7061(2)Å   b=16.8389(1)Å   c=25.4236(2)Å

α=90°   β=109.6409(5)°   γ=90°

C84H80As4Pt2,CH2Cl2

C84H80As4Pt2,CH2Cl2

Martin A. BennettSuresh K. BhargavaEddie Chung-Chin ChengWai Han LamTerence Kwok-Ming LeeSteven H. PrivérJörg WaglerAnthony C. WillisWing-Wah Yam, Vivian

Journal of the American Chemical Society (2010) 132, 7094-7103

a=12.84470(10)Å   b=14.2111(2)Å   c=22.2162(2)Å

α=103.0700(10)°   β=94.2820(10)°   γ=109.2350(10)°

C84H80As4Br2Pt2

C84H80As4Br2Pt2

Martin A. BennettSuresh K. BhargavaEddie Chung-Chin ChengWai Han LamTerence Kwok-Ming LeeSteven H. PrivérJörg WaglerAnthony C. WillisWing-Wah Yam, Vivian

Journal of the American Chemical Society (2010) 132, 7094-7103

a=14.2622(2)Å   b=21.2716(2)Å   c=24.0645(2)Å

α=90°   β=105.0773(6)°   γ=90°

C84H80As4I2Pt2

C84H80As4I2Pt2

Martin A. BennettSuresh K. BhargavaEddie Chung-Chin ChengWai Han LamTerence Kwok-Ming LeeSteven H. PrivérJörg WaglerAnthony C. WillisWing-Wah Yam, Vivian

Journal of the American Chemical Society (2010) 132, 7094-7103

a=14.2887(5)Å   b=21.2992(8)Å   c=24.2678(9)Å

α=90°   β=105.1147(17)°   γ=90°

C86H80As4N2Pt2,CH2Cl2

C86H80As4N2Pt2,CH2Cl2

Martin A. BennettSuresh K. BhargavaEddie Chung-Chin ChengWai Han LamTerence Kwok-Ming LeeSteven H. PrivérJörg WaglerAnthony C. WillisWing-Wah Yam, Vivian

Journal of the American Chemical Society (2010) 132, 7094-7103

a=13.2149(1)Å   b=13.6749(2)Å   c=23.5355(3)Å

α=76.3730(5)°   β=77.1321(6)°   γ=63.1672(6)°

C23H22N2O4,2(CHCl3)

C23H22N2O4,2(CHCl3)

Michael S. Sherburn Alan Payne Anthony C. Willis

Journal of the American Chemical Society (2005)

a=8.05780(10)Å   b=14.7735(2)Å   c=24.2902(3)Å

α=90°   β=95.4998(9)°   γ=90°

C23H25N3O6

C23H25N3O6

Michael S. Sherburn Alan D. Payne Anthony C. Willis

Journal of the American Chemical Society (2005)

a=9.6231(2)Å   b=19.1305(4)Å   c=12.2601(2)Å

α=90°   β=109.7995(13)°   γ=90°

C23H25N3O6

C23H25N3O6

Michael S. Sherburn Alan D. Payne Anthony C. Willis

Journal of the American Chemical Society (2005)

a=9.9338(2)Å   b=26.1144(4)Å   c=7.9396(1)Å

α=90°   β=90°   γ=90°

C23H25N3O6

C23H25N3O6

Alan D. PayneAnthony C. WillisMichael S. Sherburn

Journal of the American Chemical Society (2005) 127, 12188-12189

a=10.95710(10)Å   b=10.3401(2)Å   c=18.1895(3)Å

α=90°   β=95.2323(10)°   γ=90°

C48H46B1Br1Ni1O2P2,1.5C7H8

C48H46B1Br1Ni1O2P2,1.5C7H8

Mikael RetbøllAlison J. EdwardsA. David RaeAnthony C. WillisMartin A. BennettEric Wenger

Journal of the American Chemical Society (2002) 124, 8348-8360

a=9.92980(10)Å   b=12.95530(10)Å   c=20.4921(3)Å

α=85.1981(4)°   β=88.5163(4)°   γ=72.3410(4)°

C42H70NiP2C6H6

C42H70NiP2C6H6

Mikael RetbøllAlison J. EdwardsA. David RaeAnthony C. WillisMartin A. BennettEric Wenger

Journal of the American Chemical Society (2002) 124, 8348-8360

a=9.99820(10)Å   b=28.9827(3)Å   c=15.1034(2)Å

α=90.00°   β=96.1217(5)°   γ=90.00°

C42H70P2Pd,C6H6

C42H70P2Pd,C6H6

Mikael RetbøllAlison J. EdwardsA. David RaeAnthony C. WillisMartin A. BennettEric Wenger

Journal of the American Chemical Society (2002) 124, 8348-8360

a=10.1512(1)Å   b=29.5301(3)Å   c=15.0770(2)Å

α=90°   β=97.1577(6)°   γ=90°

C38H32P2Pd

C38H32P2Pd

Mikael RetbøllAlison J. EdwardsA. David RaeAnthony C. WillisMartin A. BennettEric Wenger

Journal of the American Chemical Society (2002) 124, 8348-8360

a=11.7245(4)Å   b=18.1595(8)Å   c=14.7765(6)Å

α=90°   β=99.223(2)°   γ=90°

C48H82BBrO2P2Pd

C48H82BBrO2P2Pd

Mikael RetbøllAlison J. EdwardsA. David RaeAnthony C. WillisMartin A. BennettEric Wenger

Journal of the American Chemical Society (2002) 124, 8348-8360

a=20.3184(3)Å   b=22.7581(4)Å   c=10.5870(1)Å

α=90°   β=90°   γ=90°

C14H19O2,C24BF20

C14H19O2,C24BF20

Stephen B. LeeAnthony C. WillisRichard D. Webster

Journal of the American Chemical Society (2006) 128, 9332-9333

a=11.9549(2)Å   b=17.4980(4)Å   c=17.3301(3)Å

α=90°   β=98.7693(13)°   γ=90°

C14H20O2

C14H20O2

Stephen B. LeeAnthony C. WillisRichard D. Webster

Journal of the American Chemical Society (2006) 128, 9332-9333

a=9.0787(2)Å   b=10.7742(3)Å   c=13.2895(3)Å

α=91.1222(16)°   β=103.4637(14)°   γ=97.1591(16)°

Bis(acetylacetonato)(2-vinyl-N,N-dimethylaniline)ruthenium(II)

C20H27NO4Ru

Martin A. BennettGraham A. HeathDavid C. R. HocklessIvan KovacikAnthony C. Willis

Journal of the American Chemical Society (1998) 120, 932-941

a=9.705(1)Å   b=17.781(4)Å   c=11.731(3)Å

α=90°   β=101.14(2)°   γ=90°

Bis(acetylacetonato)(2-vinyl-N,N-dimethylaniline)ruthenium(III) hexafluoroantimonate

C20H27F6NO4RuSb

Martin A. BennettGraham A. HeathDavid C. R. HocklessIvan KovacikAnthony C. Willis

Journal of the American Chemical Society (1998) 120, 932-941

a=9.125(3)Å   b=11.929(4)Å   c=12.567(3)Å

α=81.73(2)°   β=82.03(2)°   γ=70.75(2)°

C20H28Au2I2P2

C20H28Au2I2P2

Martin A. BennettSuresh K. BhargavaDavid C. R. HocklessLee L. WellingAnthony C. Willis

Journal of the American Chemical Society (1996) 118, 10469-10478

a=15.984(3)Å   b=9.064(4)Å   c=18.047(3)Å

α=90°   β=90°   γ=90°

C34H38Au2O4P2

C34H38Au2O4P2

Martin A. BennettSuresh K. BhargavaDavid C. R. HocklessLee L. WellingAnthony C. Willis

Journal of the American Chemical Society (1996) 118, 10469-10478

a=10.607(2)Å   b=8.143(4)Å   c=38.890(6)Å

α=90.00000°   β=96.140(10)°   γ=90.00000°

C18H14AuI2P

C18H14AuI2P

Martin A. BennettSuresh K. BhargavaDavid C. R. HocklessLee L. WellingAnthony C. Willis

Journal of the American Chemical Society (1996) 118, 10469-10478

a=15.131(3)Å   b=16.406(3)Å   c=15.683(4)Å

α=90.00000°   β=90.00000°   γ=90.00000°

C72H88Au4B4N24O9W4,H2O

C72H88Au4B4N24O9W4,H2O

Elliot S. BorrenAnthony F. HillRong ShangManab SharmaAnthony C. Willis

Journal of the American Chemical Society (2013) 135, 4942-4945

a=14.1428(4)Å   b=19.4442(4)Å   c=19.5444(3)Å

α=89.6316(13)°   β=70.6096(13)°   γ=85.4020(12)°

C15H8Fe2O7

C15H8Fe2O7

Mackay, Emily G.Newton, Christopher G.Toombs-Ruane, HenryLindeboom, Erik JanFallon, ThomasWillis, Anthony C.Paddon-Row, Michael NSherburn, Michael S.

Journal of the American Chemical Society (2015) 137, 46 14653-14659

a=19.1564(4)Å   b=7.3931(1)Å   c=11.2579(2)Å

α=90°   β=90°   γ=90°

C15H8Cl2Fe2O7

C15H8Cl2Fe2O7

Mackay, Emily G.Newton, Christopher G.Toombs-Ruane, HenryLindeboom, Erik JanFallon, ThomasWillis, Anthony C.Paddon-Row, Michael NSherburn, Michael S.

Journal of the American Chemical Society (2015) 137, 46 14653-14659

a=11.7552(2)Å   b=12.7186(3)Å   c=12.7193(3)Å

α=72.8865(10)°   β=88.6388(13)°   γ=84.8980(13)°

C19H14Fe2O7

C19H14Fe2O7

Mackay, Emily G.Newton, Christopher G.Toombs-Ruane, HenryLindeboom, Erik JanFallon, ThomasWillis, Anthony C.Paddon-Row, Michael NSherburn, Michael S.

Journal of the American Chemical Society (2015) 137, 46 14653-14659

a=9.8528(2)Å   b=16.6280(2)Å   c=12.4642(2)Å

α=90°   β=108.7649(8)°   γ=90°

C19H20Cl2Fe2O7Si

C19H20Cl2Fe2O7Si

Mackay, Emily G.Newton, Christopher G.Toombs-Ruane, HenryLindeboom, Erik JanFallon, ThomasWillis, Anthony C.Paddon-Row, Michael NSherburn, Michael S.

Journal of the American Chemical Society (2015) 137, 46 14653-14659

a=7.0359(1)Å   b=18.8613(3)Å   c=17.5169(3)Å

α=90°   β=91.7918(8)°   γ=90°

C15H8Cl2Fe2O7

C15H8Cl2Fe2O7

Mackay, Emily G.Newton, Christopher G.Toombs-Ruane, HenryLindeboom, Erik JanFallon, ThomasWillis, Anthony C.Paddon-Row, Michael NSherburn, Michael S.

Journal of the American Chemical Society (2015) 137, 46 14653-14659

a=7.4527(5)Å   b=10.5578(7)Å   c=12.2041(8)Å

α=105.426(3)°   β=107.762(5)°   γ=90.024(4)°

C39H34Cl2N4P2Ru

C39H34Cl2N4P2Ru

Dabb, Serin L.Messerle, Barbara A.Smith, Matthew K.Willis, Anthony C.

Inorganic Chemistry (2008) 47, 8 3034-3044

a=11.656(2)Å   b=15.015(3)Å   c=21.886(4)Å

α=90.00°   β=98.44(3)°   γ=90.00°

C76H80Cl14F6N8O6P4Ru2S2

C76H80Cl14F6N8O6P4Ru2S2

Dabb, Serin L.Messerle, Barbara A.Smith, Matthew K.Willis, Anthony C.

Inorganic Chemistry (2008) 47, 8 3034-3044

a=33.779(7)Å   b=12.670(3)Å   c=26.597(5)Å

α=90.00°   β=126.83(3)°   γ=90.00°

C34H34Cl2N4P2Ru,1.5(CH2Cl2),0.25(H2O)

C34H34Cl2N4P2Ru,1.5(CH2Cl2),0.25(H2O)

Dabb, Serin L.Messerle, Barbara A.Smith, Matthew K.Willis, Anthony C.

Inorganic Chemistry (2008) 47, 8 3034-3044

a=18.5441(3)Å   b=39.6000(6)Å   c=10.2814(2)Å

α=90°   β=90°   γ=90°

2(C34H34Cl2N4P2Ru),3(CH2Cl2)

2(C34H34Cl2N4P2Ru),3(CH2Cl2)

Dabb, Serin L.Messerle, Barbara A.Smith, Matthew K.Willis, Anthony C.

Inorganic Chemistry (2008) 47, 8 3034-3044

a=15.0764(1)Å   b=17.1534(1)Å   c=28.8099(2)Å

α=90°   β=100.6436(3)°   γ=90°

C38H56Co2N10O24,4(ClO4),3(H2O)

C38H56Co2N10O24,4(ClO4),3(H2O)

Jackson, W. GregoryDickie, Alistair J.McKeon, Josephine A.Spiccia, LeoneBrudenell, Suzanne J.Hockless, David C. R.Willis, Anthony C.

Inorganic Chemistry (2005) 44, 2 401-409

a=13.331(3)Å   b=23.353(5)Å   c=16.478(4)Å

α=90°   β=94.98(2)°   γ=90°

C19H27CoN4O2,2(ClO4),H2O

C19H27CoN4O2,2(ClO4),H2O

Zhou, XiangtingDay, Anthony I.Edwards, Alison J.Willis, Anthony C.Jackson, W. Gregory

Inorganic Chemistry (2005) 44, 2 452-460

a=9.1169(2)Å   b=25.5635(6)Å   c=11.4461(2)Å

α=90°   β=108.4631(13)°   γ=90°

C19H26ClCoN4O,2ClO4,C3H6O

C19H26ClCoN4O,2ClO4,C3H6O

Zhou, XiangtingDay, Anthony I.Edwards, Alison J.Willis, Anthony C.Jackson, W. Gregory

Inorganic Chemistry (2005) 44, 2 452-460

a=12.78330(10)Å   b=11.63720(10)Å   c=18.5013(2)Å

α=90.00°   β=102.8308(4)°   γ=90.00°

C19H26ClCoN4O,2ClO4,C3H6O

C19H26ClCoN4O,2ClO4,C3H6O

Zhou, XiangtingDay, Anthony I.Edwards, Alison J.Willis, Anthony C.Jackson, W. Gregory

Inorganic Chemistry (2005) 44, 2 452-460

a=12.78330(10)Å   b=11.63720(10)Å   c=18.5013(2)Å

α=90.00°   β=102.8308(4)°   γ=90.00°

C19H27CoN4O2,2(ClO4),H2O

C19H27CoN4O2,2(ClO4),H2O

Zhou, XiangtingDay, Anthony I.Edwards, Alison J.Willis, Anthony C.Jackson, W. Gregory

Inorganic Chemistry (2005) 44, 2 452-460

a=9.1169(2)Å   b=25.5635(6)Å   c=11.4461(2)Å

α=90°   β=108.4631(13)°   γ=90°

C38H56Co2N10O24,4(ClO4),3(H2O)

C38H56Co2N10O24,4(ClO4),3(H2O)

Jackson, W. GregoryDickie, Alistair J.McKeon, Josephine A.Spiccia, LeoneBrudenell, Suzanne J.Hockless, David C. R.Willis, Anthony C.

Inorganic Chemistry (2005) 44, 2 401-409

a=13.331(3)Å   b=23.353(5)Å   c=16.478(4)Å

α=90°   β=94.98(2)°   γ=90°

C68H68Cl2N8Os2P42,2(C24H20B),4(C3H6O)

C68H68Cl2N8Os2P42,2(C24H20B),4(C3H6O)

Dabb, Serin L.Messerle, Barbara A.Smith, Matthew K.Willis, Anthony C.

Inorganic Chemistry (2008) 47, 8 3034-3044

a=18.4958(1)Å   b=30.2710(2)Å   c=20.4361(2)Å

α=90°   β=97.2536(4)°   γ=90°

C28H28Cu2N8,2(F6P)

C28H28Cu2N8,2(F6P)

Habermehl, Nicolle C.Angus, Patricia M.Kilah, Nathan L.Norén, LasseRae, A. DavidWillis, Anthony C.S. Bruce Wild

Inorganic Chemistry (2006)

a=14.9178(2)Å   b=11.6683(2)Å   c=21.4158(3)Å

α=90°   β=109.9056(8)°   γ=90°

C40H52Ag2N8,2(F6P),C2H3N

C40H52Ag2N8,2(F6P),C2H3N

Habermehl, Nicolle C. Angus, Patricia M. Kilah, Nathan L.Norén, LasseRae, A. David Willis, Anthony C. S. Bruce Wild

Inorganic Chemistry (2006)

a=11.2078(3)Å   b=14.3947(5)Å   c=16.2084(6)Å

α=100.777(2)°   β=92.512(2)°   γ=108.916(2)°

C40H52Cu2N8,2(C18H12AsO6),CH2Cl2

C40H52Cu2N8,2(C18H12AsO6),CH2Cl2

Habermehl, Nicolle C. Angus, Patricia M. Kilah, Nathan L.Norén, LasseRae, A. David Willis, Anthony C. S. Bruce Wild

Inorganic Chemistry (2006)

a=12.3419(2)Å   b=25.9815(4)Å   c=12.4508(2)Å

α=90°   β=111.3325(7)°   γ=90°

C94H84Fe2N16O8,2(CH2Cl2)

C94H84Fe2N16O8,2(CH2Cl2)

Rebecca J. WarrAnthony C. WillisS. Bruce Wild

Inorganic Chemistry (2008) 47, 9351-9362

a=33.7536(6)Å   b=15.3817(3)Å   c=18.0814(3)Å

α=90°   β=111.6070(11)°   γ=90°

C94H88Fe2N16O84,(C6H5O3S)4,C2H6O,5.65(CH4O),H2O

C94H88Fe2N16O84,(C6H5O3S)4,C2H6O,5.65(CH4O),H2O

Rebecca J. WarrAnthony C. WillisS. Bruce Wild

Inorganic Chemistry (2008) 47, 9351-9362

a=16.8888(3)Å   b=18.8087(3)Å   c=20.6913(3)Å

α=94.4353(11)°   β=94.9183(10)°   γ=105.3598(9)°

Ru(CCH~3~)~6~{S~3~(CH~2~)~4~}

Ru(CCH~3~)~6~{S~3~(CH~2~)~4~}

Richard Y. C. ShinMartin A. BennettLai Yoong GohWei ChenDavid C. R. HocklessWeng Kee LeongKazushi MashimaAnthony C. Willis

Inorganic Chemistry (2003) 42, 96-106

a=10.678(2)Å   b=10.247(2)Å   c=15.5890(10)Å

α=90.00°   β=94.98(1)°   γ=90.00°

[{(CCH~3~)~6~Ru}~2~{S~3~(CH~2~)~4~}CH~3~CN](PF~6~)~2~(CH~3~CN)

[{(CCH~3~)~6~Ru}~2~{S~3~(CH~2~)~4~}CH~3~CN](PF~6~)~2~(CH~3~CN)

Richard Y. C. ShinMartin A. BennettLai Yoong GohWei ChenDavid C. R. HocklessWeng Kee LeongKazushi MashimaAnthony C. Willis

Inorganic Chemistry (2003) 42, 96-106

a=11.995(4)Å   b=11.995(4)Å   c=48.844(8)Å

α=90.00°   β=90.00°   γ=120.00°

C21H35F12NP2RuS3

C21H35F12NP2RuS3

Richard Y. C. ShinMartin A. BennettLai Yoong GohWei ChenDavid C. R. HocklessWeng Kee LeongKazushi MashimaAnthony C. Willis

Inorganic Chemistry (2003) 42, 96-106

a=9.7217(4)Å   b=9.0816(4)Å   c=34.0881(13)Å

α=90.00°   β=90.00°   γ=90.00°

C22H40F12N2O4P2RuS3

C22H40F12N2O4P2RuS3

Richard Y. C. ShinMartin A. BennettLai Yoong GohWei ChenDavid C. R. HocklessWeng Kee LeongKazushi MashimaAnthony C. Willis

Inorganic Chemistry (2003) 42, 96-106

a=10.6608(4)Å   b=31.0220(13)Å   c=10.5648(4)Å

α=90.00°   β=107.4450(10)°   γ=90.00°

C19H27ClCoN52,Cl4Zn2

C19H27ClCoN52,Cl4Zn2

Alistair J. DickieDavid C. R. HocklessAnthony C. WillisJosephine A. McKeonW. Gregory Jackson

Inorganic Chemistry (2003) 42, 3822-3834

a=17.723(5)Å   b=15.130(6)Å   c=18.350(6)Å

α=90°   β=90°   γ=90°

C84H84As4Cu2P42,2(F6P1)

C84H84As4Cu2P42,2(F6P1)

Vernon C. CookAnthony C. WillisJohann ZankS. Bruce Wild

Inorganic Chemistry (2002) 41, 1897-1906

a=16.084(3)Å   b=18.376(3)Å   c=29.149(6)Å

α=90°   β=90°   γ=90°

C84H84As4Au2P42,2(F6P)

C84H84As4Au2P42,2(F6P)

Vernon C. CookAnthony C. WillisJohann ZankS. Bruce Wild

Inorganic Chemistry (2002) 41, 1897-1906

a=16.199(4)Å   b=18.373(4)Å   c=29.347(2)Å

α=90°   β=90°   γ=90°

C84H84Ag2As4P42,2(F6P)

C84H84Ag2As4P42,2(F6P)

Vernon C. CookAnthony C. WillisJohann ZankS. Bruce Wild

Inorganic Chemistry (2002) 41, 1897-1906

a=12.487(2)Å   b=12.695(4)Å   c=27.242(4)Å

α=92.057(18)°   β=95.188(14)°   γ=98.234(17)°

C25H23AsP,F6P

C25H23AsP,F6P

Keith A. PorterAnthony C. WillisJohann ZankS. Bruce Wild

Inorganic Chemistry (2002) 41, 6380-6386

a=10.7775(2)Å   b=17.7987(3)Å   c=13.3797(2)Å

α=90°   β=109.066(1)°   γ=90°

C27H27AsOP,F6P

C27H27AsOP,F6P

Keith A. PorterAnthony C. WillisJohann ZankS. Bruce Wild

Inorganic Chemistry (2002) 41, 6380-6386

a=10.8077(2)Å   b=10.9741(2)Å   c=13.5648(2)Å

α=99.0162(9)°   β=105.2121(9)°   γ=116.4717(9)°

C12H32CoN4O21,ClO41,2(H2O)

C12H32CoN4O21,ClO41,2(H2O)

A. F. M. Mokhlesur RahmanW. Gregory JacksonAnthony C. Willis

Inorganic Chemistry (2004) 43, 7558-7560

a=11.1080(3)Å   b=18.6362(6)Å   c=10.4397(2)Å

α=90°   β=105.488(2)°   γ=90°

C36H28HgO2P2

C36H28HgO2P2

Martin A. BennettMaria ContelDavid C. R. HocklessLee L. WellingAnthony C. Willis

Inorganic Chemistry (2002) 41, 844-855

a=11.331(3)Å   b=9.381(2)Å   c=14.516(4)Å

α=90°   β=98.30(2)°   γ=90°

C36H28Br2Hg2P2,2(CH2Cl2)

C36H28Br2Hg2P2,2(CH2Cl2)

Martin A. BennettMaria ContelDavid C. R. HocklessLee L. WellingAnthony C. Willis

Inorganic Chemistry (2002) 41, 844-855

a=12.720(3)Å   b=13.154(2)Å   c=12.724(2)Å

α=92.01(2)°   β=109.19(2)°   γ=90.82(2)°

C36H28Cl2HgNiP2,2(CH2Cl2)

C36H28Cl2HgNiP2,2(CH2Cl2)

Martin A. BennettMaria ContelDavid C. R. HocklessLee L. WellingAnthony C. Willis

Inorganic Chemistry (2002) 41, 844-855

a=19.455(3)Å   b=8.496(5)Å   c=22.858(3)Å

α=90°   β=90°   γ=90°