Structures by: Mir W. H.

Total: 118

C73H51Cl15N12O4

C73H51Cl15N12O4

Bertrand ZimmerMarie HutinVéronique BulachMir Wais HosseiniAndré De CianNathalie Kyritsakas

New Journal of Chemistry (2002) 26, 11 1532-1535

a=12.8117(2)Å   b=13.0953(2)Å   c=13.5473(3)Å

α=104.664(5)°   β=111.913(5)°   γ=104.738(5)°

C74H58CuN14O6

C74H58CuN14O6

Bertrand ZimmerMarie HutinVéronique BulachMir Wais HosseiniAndré De CianNathalie Kyritsakas

New Journal of Chemistry (2002) 26, 11 1532-1535

a=11.0102(2)Å   b=11.3676(2)Å   c=13.6847(3)Å

α=76.117(5)°   β=82.625(5)°   γ=65.319(5)°

C37H28Cl2HgN2O6

C37H28Cl2HgN2O6

Mir Wais HosseiniMarc Henry

New J.Chem.(Nouv.J.Chim.) (2004)

a=6.9151(1)Å   b=17.3434(3)Å   c=17.8375(3)Å

α=116.613(5)°   β=94.225(5)°   γ=90.319(5)°

C26H30Cl10Cu2N2S4

C26H30Cl10Cu2N2S4

Sylvie FerlayAbdelaziz JouaitiMarielle LoïMir Wais HosseiniAndré De CianPhilippe Turek

New J. Chem. (2003) 27, 12 1801-1805

a=9.7076(3)Å   b=12.6420(3)Å   c=16.1419(3)Å

α=90°   β=98.468(2)°   γ=90°

C24H28B2Cl2Cu2F8N2S4

C24H28B2Cl2Cu2F8N2S4

Sylvie FerlayAbdelaziz JouaitiMarielle LoïMir Wais HosseiniAndré De CianPhilippe Turek

New J. Chem. (2003) 27, 12 1801-1805

a=32.475(3)Å   b=13.496(2)Å   c=8.7380(5)Å

α=90°   β=96.335(6)°   γ=90°

?

C36H44AgCl2F6N2O5P

Cédric KleinErnest GrafMir Wais HosseiniAndré De Cian

New J. Chem. (2001) 25, 2 207-209

a=24.4478(4)Å   b=24.4478(4)Å   c=68.740(1)Å

α=90°   β=90°   γ=90°

?

C60H60N4

Cédric KleinErnest GrafMir Wais HosseiniAndré De Cian

New J. Chem. (2001) 25, 2 207-209

a=15.669(1)Å   b=15.669(1)Å   c=11.4392(4)Å

α=90°   β=90°   γ=90°

?

C30H36Cu2N4O12S2

Jérôme PansanelAbdelaziz JouaitiSylvie FerlayMir Wais HosseiniJean-Marc PlaneixNathalie Kyritsakas

New Journal of Chemistry (2006) 30, 5 683

a=8.2271(2)Å   b=14.3223(3)Å   c=15.7025(4)Å

α=76.877(4)°   β=89.004(4)°   γ=82.816(4)°

?

C28H34Cu2N4O12

Jérôme PansanelAbdelaziz JouaitiSylvie FerlayMir Wais HosseiniJean-Marc PlaneixNathalie Kyritsakas

New Journal of Chemistry (2006) 30, 5 683

a=33.799(1)Å   b=12.7452(5)Å   c=8.5671(5)Å

α=90°   β=95.297(5)°   γ=90°

C22H20CuN4O6

C22H20CuN4O6

Jérôme PansanelAbdelaziz JouaitiSylvie FerlayMir Wais HosseiniJean-Marc PlaneixNathalie Kyritsakas

New Journal of Chemistry (2006) 30, 5 683

a=13.6671(13)Å   b=11.5908(8)Å   c=14.1521(16)Å

α=90.00°   β=117.785(3)°   γ=90.00°

C84H48Cu8S12,4(C8H20N),6(C4H8O)

C84H48Cu8S12,4(C8H20N),6(C4H8O)

Stéphane A. BaudronMir Wais HosseiniNathalie Kyritsakas

New Journal of Chemistry (2006) 30, 7 1083

a=16.0263(5)Å   b=22.3943(7)Å   c=19.7820(8)Å

α=90.00°   β=112.7590(10)°   γ=90.00°

C72H36Cu8N12S12,4(C8H20N),6(C2H6OS)

C72H36Cu8N12S12,4(C8H20N),6(C2H6OS)

Stéphane A. BaudronMir Wais HosseiniNathalie Kyritsakas

New Journal of Chemistry (2006) 30, 7 1083

a=39.0401(13)Å   b=17.3267(6)Å   c=24.2754(8)Å

α=90.00°   β=124.138(2)°   γ=90.00°

C86H62I4N12O3Zn4

C86H62I4N12O3Zn4

Emmanuel DeitersVéronique BulachMir Wais Hosseini

New Journal of Chemistry (2006) 30, 9 1289

a=9.6797(3)Å   b=12.6462(4)Å   c=17.6494(6)Å

α=87.281(2)°   β=75.648(2)°   γ=87.824(2)°

C86H58Cd2Cl6I4N12

C86H58Cd2Cl6I4N12

Emmanuel DeitersVéronique BulachMir Wais Hosseini

New Journal of Chemistry (2006) 30, 9 1289

a=9.8032(3)Å   b=12.5002(4)Å   c=17.7426(5)Å

α=86.910(2)°   β=75.7380(10)°   γ=86.087(2)°

C84H56Hg2I4N12,2(CHCl3)

C84H56Hg2I4N12,2(CHCl3)

Emmanuel DeitersVéronique BulachMir Wais Hosseini

New Journal of Chemistry (2006) 30, 9 1289

a=9.8204(3)Å   b=12.4299(3)Å   c=17.7025(5)Å

α=86.5920(10)°   β=75.9920(10)°   γ=85.8720(10)°

C86H54Br4Cl6Cu2Hg2N12

C86H54Br4Cl6Cu2Hg2N12

Emmanuel DeitersVéronique BulachMir Wais Hosseini

New Journal of Chemistry (2006) 30, 9 1289

a=9.5541(4)Å   b=12.5202(5)Å   c=17.6342(6)Å

α=86.332(2)°   β=76.009(2)°   γ=87.361(2)°

C16H6N2O12Zn,C12H16N4,4(H2O)

C16H6N2O12Zn,C12H16N4,4(H2O)

Gabriela MarinescuSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Chem.Commun. (2013) 49, 11209

a=19.2791(5)Å   b=9.6312(3)Å   c=17.0771(5)Å

α=90.00°   β=107.809(14)°   γ=90.00°

C16H6CuN2O12,C12H16N4,4(H2O)

C16H6CuN2O12,C12H16N4,4(H2O)

Gabriela MarinescuSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Chem.Commun. (2013) 49, 11209

a=19.2201(5)Å   b=9.6352(3)Å   c=17.0833(5)Å

α=90.00°   β=106.751(14)°   γ=90.00°

C16H6N2NiO12,C12H16N4,4(H2O)

C16H6N2NiO12,C12H16N4,4(H2O)

Gabriela MarinescuSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Chem.Commun. (2013) 49, 11209

a=19.1971(5)Å   b=9.6310(2)Å   c=17.0962(4)Å

α=90.00°   β=106.581(11)°   γ=90.00°

C16H6CoN2O12,C12H16N4,4(H2O)

C16H6CoN2O12,C12H16N4,4(H2O)

Gabriela MarinescuSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Chem.Commun. (2013) 49, 11209

a=19.2011(5)Å   b=9.6470(3)Å   c=17.1082(6)Å

α=90.00°   β=107.494(4)°   γ=90.00°

C32H26N4NiS2

C32H26N4NiS2

Stephane A. BaudronHerve RuffinMir Wais Hosseini

Chem.Commun. (2015) 51, 5906

a=18.0049(9)Å   b=9.0457(4)Å   c=32.7494(15)Å

α=90.00°   β=90.00°   γ=90.00°

C32H26N4NiS2

C32H26N4NiS2

Stephane A. BaudronHerve RuffinMir Wais Hosseini

Chem.Commun. (2015) 51, 5906

a=9.7891(2)Å   b=11.7331(2)Å   c=12.5712(3)Å

α=104.4860(10)°   β=99.6890(10)°   γ=102.5310(10)°

C32H24N4NiS2

C32H24N4NiS2

Stephane A. BaudronHerve RuffinMir Wais Hosseini

Chem.Commun. (2015) 51, 5906

a=9.9075(2)Å   b=12.3331(3)Å   c=12.4360(3)Å

α=64.1490(10)°   β=69.8930(10)°   γ=79.4820(10)°

C32H26N4S2,CHCl3

C32H26N4S2,CHCl3

Stephane A. BaudronHerve RuffinMir Wais Hosseini

Chem.Commun. (2015) 51, 5906

a=8.9232(2)Å   b=12.3869(3)Å   c=14.6782(4)Å

α=75.7490(10)°   β=75.0970(10)°   γ=86.5210(10)°

C64H48N8S4Zn2

C64H48N8S4Zn2

Stephane A. BaudronHerve RuffinMir Wais Hosseini

Chem.Commun. (2015) 51, 5906

a=15.1355(4)Å   b=14.9332(4)Å   c=24.9048(5)Å

α=90.00°   β=106.3990(10)°   γ=90.00°

C34H26N4NiO4

C34H26N4NiO4

Stephane A. BaudronHerve RuffinMir Wais Hosseini

Chem.Commun. (2015) 51, 5906

a=9.2124(3)Å   b=11.1476(3)Å   c=14.7168(5)Å

α=86.1660(10)°   β=76.5000(10)°   γ=70.6820(10)°

C34H24N4NiO4

C34H24N4NiO4

Stephane A. BaudronHerve RuffinMir Wais Hosseini

Chem.Commun. (2015) 51, 5906

a=34.4732(8)Å   b=9.8680(2)Å   c=7.9143(2)Å

α=90.00°   β=100.7240(10)°   γ=90.00°

2(C96H72N12S6Zn3),C5H12,2(C4H8O2)

2(C96H72N12S6Zn3),C5H12,2(C4H8O2)

Stephane A. BaudronHerve RuffinMir Wais Hosseini

Chem.Commun. (2015) 51, 5906

a=13.3649(5)Å   b=18.2896(6)Å   c=18.8109(7)Å

α=96.448(2)°   β=99.538(2)°   γ=94.693(2)°

C34H26N4O4

C34H26N4O4

Stephane A. BaudronHerve RuffinMir Wais Hosseini

Chem.Commun. (2015) 51, 5906

a=20.8248(7)Å   b=7.2192(2)Å   c=19.4469(7)Å

α=90.00°   β=105.8250(10)°   γ=90.00°

C102H72N12O12Zn3,3(CHCl3)

C102H72N12O12Zn3,3(CHCl3)

Stephane A. BaudronHerve RuffinMir Wais Hosseini

Chem.Commun. (2015) 51, 5906

a=18.1355(4)Å   b=21.5289(5)Å   c=25.5659(6)Å

α=90.00°   β=100.0080(10)°   γ=90.00°

C68H48N8O8Zn2

C68H48N8O8Zn2

Stephane A. BaudronHerve RuffinMir Wais Hosseini

Chem.Commun. (2015) 51, 5906

a=23.8065(15)Å   b=16.6644(11)Å   c=42.744(3)Å

α=90.00°   β=100.563(2)°   γ=90.00°

C136H96N16O16Zn4

C136H96N16O16Zn4

Stephane A. BaudronHerve RuffinMir Wais Hosseini

Chem.Commun. (2015) 51, 5906

a=15.3648(9)Å   b=19.7305(11)Å   c=23.6393(13)Å

α=90.00°   β=90.00°   γ=90.00°

C136H96N16O16Zn4

C136H96N16O16Zn4

Stephane A. BaudronHerve RuffinMir Wais Hosseini

Chem.Commun. (2015) 51, 5906

a=15.3370(6)Å   b=19.7279(14)Å   c=23.6518(12)Å

α=90.00°   β=90.00°   γ=90.00°

C42H40N6

C42H40N6

Mohamed El GarahArtur CiesielskiNicolas MaretsVeronique BulachMir Wais HosseiniPaolo Samori

Chem.Commun. (2014) 50, 12250

a=9.8125(3)Å   b=14.2149(5)Å   c=14.3580(6)Å

α=81.339(2)°   β=71.164(2)°   γ=86.240(2)°

C43H45N5O10Pd

C43H45N5O10Pd

Nicolas ZigonPatrick LarpentAbdelaziz JouaitiNathalie KyritsakasMir Wais Hosseini

Chem.Commun. (2014) 50, 5040

a=8.4440(4)Å   b=17.3203(6)Å   c=27.1664(11)Å

α=90.00°   β=95.788(2)°   γ=90.00°

C46H30IrN6,PF6,H2O

C46H30IrN6,PF6,H2O

Chaojie XuAurelie GuenetNathalie KyritsakasJean-Marc PlaneixMir Wais Hosseini

Chem.Commun. (2015) 51, 14785

a=13.9900(3)Å   b=15.4250(3)Å   c=23.9686(7)Å

α=104.5710(10)°   β=106.4530(10)°   γ=93.4910(10)°

C46H30IrN6,2(C7H8),H2O,Cl

C46H30IrN6,2(C7H8),H2O,Cl

Chaojie XuAurelie GuenetNathalie KyritsakasJean-Marc PlaneixMir Wais Hosseini

Chem.Commun. (2015) 51, 14785

a=32.5454(6)Å   b=12.2814(2)Å   c=13.9420(2)Å

α=90.00°   β=90.00°   γ=90.00°

C46H30IrN6,2(C7H8),H2O

C46H30IrN6,2(C7H8),H2O

Chaojie XuAurelie GuenetNathalie KyritsakasJean-Marc PlaneixMir Wais Hosseini

Chem.Commun. (2015) 51, 14785

a=32.7712(7)Å   b=12.3271(4)Å   c=13.9638(4)Å

α=90°   β=90°   γ=90°

C92H60B2CuF8Ir2N12,2(F6P),4(CHCl3),CH3OH

C92H60B2CuF8Ir2N12,2(F6P),4(CHCl3),CH3OH

Chaojie XuAurelie GuenetNathalie KyritsakasJean-Marc PlaneixMir Wais Hosseini

Chem.Commun. (2015) 51, 14785

a=33.6718(17)Å   b=33.6481(16)Å   c=13.8979(6)Å

α=90.00°   β=110.2790(10)°   γ=90.00°

C72H66CuN12O11

C72H66CuN12O11

Bertrand ZimmerMarie HutinVéronique BulachMir Wais HosseiniAndré De CianNathalie Kyritsakas

New Journal of Chemistry (2002) 26, 11 1532-1535

a=9.9533(2)Å   b=13.2375(4)Å   c=13.3971(3)Å

α=88.813(5)°   β=69.005(5)°   γ=88.363(4)°

2(C16H36N),C24H12CuN4S4,2(C2H3N)

2(C16H36N),C24H12CuN4S4,2(C2H3N)

Stéphane A. BaudronMir Wais HosseiniNathalie Kyritsakas

New Journal of Chemistry (2006) 30, 7 1083

a=18.6672(7)Å   b=8.7381(3)Å   c=18.9133(7)Å

α=90.00°   β=101.396(2)°   γ=90.00°

C86H54Cd2Cl6Cu2I4N12

C86H54Cd2Cl6Cu2I4N12

Emmanuel DeitersVéronique BulachMir Wais Hosseini

New Journal of Chemistry (2006) 30, 9 1289

a=9.7586(5)Å   b=12.4722(5)Å   c=17.6672(7)Å

α=87.060(2)°   β=75.477(2)°   γ=85.986(2)°

C26H32N2O2

C26H32N2O2

Patrick LarpentAbdelaziz JouaitiNathalie KyritsakasaMir Wais Hosseini

Chem.Commun. (2013) 49, 4468

a=6.4044(5)Å   b=9.3965(6)Å   c=10.5878(7)Å

α=65.760(3)°   β=86.256(3)°   γ=84.669(3)°

C44H48F6N4O8SiZn,CHCl3

C44H48F6N4O8SiZn,CHCl3

Patrick LarpentAbdelaziz JouaitiNathalie KyritsakasaMir Wais Hosseini

Chem.Commun. (2013) 49, 4468

a=22.0440(15)Å   b=22.0440(15)Å   c=15.1513(18)Å

α=90.00°   β=90.00°   γ=90.00°

C52H64F6N4O4SiZn,2(CHCl3)

C52H64F6N4O4SiZn,2(CHCl3)

Patrick LarpentAbdelaziz JouaitiNathalie KyritsakasaMir Wais Hosseini

Chem.Commun. (2013) 49, 4468

a=22.0927(4)Å   b=22.0927(4)Å   c=15.2503(5)Å

α=90.00°   β=90.00°   γ=90.00°

C48H56F6N4O4SiZn,3(CHCl3)

C48H56F6N4O4SiZn,3(CHCl3)

Patrick LarpentAbdelaziz JouaitiNathalie KyritsakasaMir Wais Hosseini

Chem.Commun. (2013) 49, 4468

a=22.0656(6)Å   b=22.0656(6)Å   c=15.2730(7)Å

α=90.00°   β=90.00°   γ=90.00°

C22H24N2O4

C22H24N2O4

Patrick LarpentAbdelaziz JouaitiNathalie KyritsakasaMir Wais Hosseini

Chem.Commun. (2013) 49, 4468

a=10.9710(7)Å   b=7.7678(4)Å   c=11.9253(8)Å

α=90.00°   β=104.9420(10)°   γ=90.00°

C24H28N2O2

C24H28N2O2

Patrick LarpentAbdelaziz JouaitiNathalie KyritsakasaMir Wais Hosseini

Chem.Commun. (2013) 49, 4468

a=5.9331(5)Å   b=7.4929(7)Å   c=46.754(3)Å

α=90.00°   β=90.00°   γ=90.00°

C42.34H27.36N6O0.34Zn

C42.34H27.36N6O0.34Zn

Emmanuel DeitersVeronique BulachMir Wais Hosseini

Chemical Communications (2005)

a=32.9114(13)Å   b=32.9114(13)Å   c=9.4246(5)Å

α=90.00°   β=90.00°   γ=120.00°

C42.68H28.04N6O0.34Zn

C42.68H28.04N6O0.34Zn

Emmanuel DeitersVeronique BulachMir Wais Hosseini

Chemical Communications (2005)

a=33.0866(4)Å   b=33.0866(4)Å   c=9.4360(2)Å

α=90.00°   β=90.00°   γ=120.00°

C44H30N6Zn

C44H30N6Zn

Emmanuel DeitersVeronique BulachMir Wais Hosseini

Chemical Communications (2005)

a=33.0583(7)Å   b=33.0583(7)Å   c=9.3302(5)Å

α=90.00°   β=90.00°   γ=120.00°

C42H26N6Zn

C42H26N6Zn

Emmanuel DeitersVeronique BulachMir Wais Hosseini

Chemical Communications (2005)

a=33.0734(5)Å   b=33.0734(5)Å   c=9.2921(4)Å

α=90.00°   β=90.00°   γ=120.00°

3(C32H20AgBr2N2O5),3(BF4),2(CHCl3)

3(C32H20AgBr2N2O5),3(BF4),2(CHCl3)

Mir Wais HosseiniPhilippe GrosshansAbdelaziz JouaitiNathalie KyritsakasJean-Marc Planeix

Chemical Communications (2006) 29

a=23.8747(6)Å   b=23.8747(6)Å   c=23.8747(6)Å

α=90.00°   β=90.00°   γ=90.00°

2(C36H26CuN8),3(CHCl3)

2(C36H26CuN8),3(CHCl3)

Antoine BeziauStephane A. BaudronDmitry PogozhevAudrey FluckMir Wais Hosseini

Chem.Commun. (2012) 48, 10313

a=37.4262(12)Å   b=8.9610(3)Å   c=28.2529(16)Å

α=90.00°   β=130.2960(10)°   γ=90.00°

C75H59CdCl2Cu2N17O

C75H59CdCl2Cu2N17O

Antoine BeziauStephane A. BaudronDmitry PogozhevAudrey FluckMir Wais Hosseini

Chem.Commun. (2012) 48, 10313

a=14.5401(4)Å   b=30.0895(11)Å   c=19.4195(5)Å

α=90.00°   β=97.7360(10)°   γ=90.00°

C74H52CdCu2N18S2

C74H52CdCu2N18S2

Antoine BeziauStephane A. BaudronDmitry PogozhevAudrey FluckMir Wais Hosseini

Chem.Commun. (2012) 48, 10313

a=23.1765(8)Å   b=29.6240(9)Å   c=14.4219(4)Å

α=90.00°   β=121.9580(10)°   γ=90.00°

3(C14H20N4),2(C6CrN6)

3(C14H20N4),2(C6CrN6)

Pierre DechambenoitSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Journal of the American Chemical Society (2008) 130, 17106-17113

a=7.2563(3)Å   b=20.5934(9)Å   c=21.5442(9)Å

α=90.00°   β=106.777(3)°   γ=90.00°

3(C14H20N4),2(C6FeN6),7(H2O)

3(C14H20N4),2(C6FeN6),7(H2O)

Pierre DechambenoitSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Journal of the American Chemical Society (2008) 130, 17106-17113

a=7.0949(3)Å   b=12.3765(5)Å   c=17.9534(7)Å

α=83.580(2)°   β=87.6101(10)°   γ=83.9340(10)°

3(C14H20N4),2(C6CoN6),7(H2O)

3(C14H20N4),2(C6CoN6),7(H2O)

Pierre DechambenoitSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Journal of the American Chemical Society (2008) 130, 17106-17113

a=7.0982(4)Å   b=12.3509(7)Å   c=17.8586(10)Å

α=83.535(2)°   β=87.4280(10)°   γ=83.967(2)°

3(C14H20N4),2(C6CrN6),6(H2O),H2O

3(C14H20N4),2(C6CrN6),6(H2O),H2O

Pierre DechambenoitSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Journal of the American Chemical Society (2008) 130, 17106-17113

a=7.1142(4)Å   b=21.4319(13)Å   c=20.9403(13)Å

α=90.00°   β=91.702(2)°   γ=90.00°

1.5(C14H20N4O2),C6FeN6

1.5(C14H20N4O2),C6FeN6

Pierre DechambenoitSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Journal of the American Chemical Society (2008) 130, 17106-17113

a=7.2655(10)Å   b=19.6845(18)Å   c=20.427(3)Å

α=90.00°   β=93.837(7)°   γ=90.00°

3(C14H20N4),2(C6FeN6)

3(C14H20N4),2(C6FeN6)

Pierre DechambenoitSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Journal of the American Chemical Society (2008) 130, 17106-17113

a=7.2138(6)Å   b=12.1706(11)Å   c=17.3090(16)Å

α=84.987(2)°   β=89.044(3)°   γ=83.821(2)°

3(C14H20N4),2(C6CoN6)

3(C14H20N4),2(C6CoN6)

Pierre DechambenoitSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Journal of the American Chemical Society (2008) 130, 17106-17113

a=7.2141(4)Å   b=12.1497(8)Å   c=17.2052(13)Å

α=84.582(4)°   β=88.960(4)°   γ=84.052(4)°

C14H20N4O2,0.5(C14H20N4O2),C6CoN6

C14H20N4O2,0.5(C14H20N4O2),C6CoN6

Pierre DechambenoitSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Journal of the American Chemical Society (2008) 130, 17106-17113

a=7.2886(2)Å   b=19.5917(5)Å   c=20.3127(5)Å

α=90.00°   β=93.611(2)°   γ=90.00°

3(C14H20N4O2),2(C6FeN6),8(H2O)

3(C14H20N4O2),2(C6FeN6),8(H2O)

Pierre DechambenoitSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Journal of the American Chemical Society (2008) 130, 17106-17113

a=7.0978(5)Å   b=22.2254(16)Å   c=20.6357(12)Å

α=90.00°   β=92.363(3)°   γ=90.00°

3(C14H20N4O2),2(C6CoN6),8(H2O)

3(C14H20N4O2),2(C6CoN6),8(H2O)

Pierre DechambenoitSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Journal of the American Chemical Society (2008) 130, 17106-17113

a=7.1180(10)Å   b=22.252(4)Å   c=20.508(4)Å

α=90.00°   β=92.239(6)°   γ=90.00°

3(C14H20N4O2),2(C6CrN6),8(H2O)

3(C14H20N4O2),2(C6CrN6),8(H2O)

Pierre DechambenoitSylvie FerlayNathalie KyritsakasMir Wais Hosseini

Journal of the American Chemical Society (2008) 130, 17106-17113

a=7.1190(2)Å   b=22.3250(6)Å   c=21.0110(6)Å

α=90.00°   β=92.8190(17)°   γ=90.00°

C16H12N3,CF3O3S

C16H12N3,CF3O3S

Domingo Salazar-MendozaStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2008) 47, 766-768

a=10.0624(6)Å   b=10.3247(6)Å   c=16.6996(9)Å

α=90.00°   β=91.643(2)°   γ=90.00°

C68H54Ag2Co2N12O6,2(F6Sb)

C68H54Ag2Co2N12O6,2(F6Sb)

Domingo Salazar-MendozaStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2008) 47, 766-768

a=13.9626(5)Å   b=11.4836(4)Å   c=22.1003(8)Å

α=90.00°   β=94.1700(10)°   γ=90.00°

C32H22Ag2N6,2(BF4)

C32H22Ag2N6,2(BF4)

Domingo Salazar-MendozaStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2008) 47, 766-768

a=9.9210(6)Å   b=10.0826(4)Å   c=10.1108(4)Å

α=118.576(2)°   β=100.160(3)°   γ=108.078(3)°

C32H24CoN5O2,2(CHCl3)

C32H24CoN5O2,2(CHCl3)

Domingo Salazar-MendozaStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2008) 47, 766-768

a=11.7199(8)Å   b=18.0162(13)Å   c=16.3131(11)Å

α=90.00°   β=90.00°   γ=90.00°

C39H29IrN4O2

C39H29IrN4O2

Catherine BronnerStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 8659-8661

a=11.0105(5)Å   b=16.6521(7)Å   c=19.1068(7)Å

α=72.4530(10)°   β=74.4550(10)°   γ=72.3500(10)°

C155H113Cu2Ir4N17O10

C155H113Cu2Ir4N17O10

Catherine BronnerStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 8659-8661

a=18.9483(4)Å   b=20.7016(5)Å   c=22.6138(5)Å

α=65.7530(10)°   β=77.4960(10)°   γ=75.6160(10)°

C38H27IrN4O2,C4H8O

C38H27IrN4O2,C4H8O

Catherine BronnerStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 8659-8661

a=11.5527(3)Å   b=12.4373(3)Å   c=13.4665(3)Å

α=77.8200(10)°   β=69.9860(10)°   γ=69.9060(10)°

C20H16CuN4O2

C20H16CuN4O2

Brandon KilduffDmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 11231-11239

a=22.1808(8)Å   b=11.7623(5)Å   c=15.1987(6)Å

α=90.00°   β=108.2100(10)°   γ=90.00°

2(C34H26CoN7O2),CHCl3

2(C34H26CoN7O2),CHCl3

Brandon KilduffDmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 11231-11239

a=8.0265(2)Å   b=9.5883(2)Å   c=20.0801(5)Å

α=99.6540(10)°   β=90.6380(10)°   γ=96.9870(10)°

C41H32AgCu2F3N8O7S,2(C2H3N)

C41H32AgCu2F3N8O7S,2(C2H3N)

Brandon KilduffDmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 11231-11239

a=21.2562(12)Å   b=20.3813(14)Å   c=14.5279(9)Å

α=90.00°   β=131.2770(10)°   γ=90.00°

C34H26CoN7O2,1.5(C4H8O2)

C34H26CoN7O2,1.5(C4H8O2)

Brandon KilduffDmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 11231-11239

a=8.7518(2)Å   b=14.3595(3)Å   c=15.0712(3)Å

α=91.4900(10)°   β=106.4220(10)°   γ=98.6120(10)°

C40H32AgCu2N8O4,CF3O3S

C40H32AgCu2N8O4,CF3O3S

Brandon KilduffDmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 11231-11239

a=7.9711(2)Å   b=9.1922(2)Å   c=14.6259(4)Å

α=101.2980(10)°   β=93.9740(10)°   γ=102.1420(10)°

C34H26AgCoN7O2,0.5(C6H6),3(C2H3N),BF4

C34H26AgCoN7O2,0.5(C6H6),3(C2H3N),BF4

Brandon KilduffDmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 11231-11239

a=9.9369(3)Å   b=14.1115(3)Å   c=15.8223(4)Å

α=73.8980(10)°   β=86.2550(10)°   γ=89.2360(10)°

C40H32AgCu2N8O4,C6H6,BF4

C40H32AgCu2N8O4,C6H6,BF4

Brandon KilduffDmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 11231-11239

a=21.0203(7)Å   b=19.2974(7)Å   c=14.3301(5)Å

α=90.00°   β=131.0430(10)°   γ=90.00°

C40H32AgCu2N8O4,BF4

C40H32AgCu2N8O4,BF4

Brandon KilduffDmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 11231-11239

a=7.2622(2)Å   b=21.5157(6)Å   c=12.3601(4)Å

α=90.00°   β=91.519(2)°   γ=90.00°

C35H26AgCoF3N7O5S,C2H3N

C35H26AgCoF3N7O5S,C2H3N

Brandon KilduffDmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 11231-11239

a=11.4601(2)Å   b=25.0292(6)Å   c=13.8946(3)Å

α=90.00°   β=109.0160(10)°   γ=90.00°

C18H16N4

C18H16N4

Dmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 331-338

a=8.5724(10)Å   b=9.7289(10)Å   c=10.4170(11)Å

α=62.616(4)°   β=80.140(4)°   γ=83.840(4)°

C23H20CuN4O2

C23H20CuN4O2

Dmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 331-338

a=8.6097(2)Å   b=10.6165(3)Å   c=11.0140(3)Å

α=82.1660(10)°   β=87.9790(10)°   γ=88.6640(10)°

C24H19CuN5O2

C24H19CuN5O2

Dmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 331-338

a=9.0755(3)Å   b=21.5983(6)Å   c=21.3201(6)Å

α=90.00°   β=94.0810(10)°   γ=90.00°

C28H27CuN5O4

C28H27CuN5O4

Dmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 331-338

a=7.7529(2)Å   b=11.9322(2)Å   c=14.8002(4)Å

α=84.4710(10)°   β=74.8250(10)°   γ=72.3840(10)°

C46H40AgCu2N8O4,2(C6H6),F6Sb

C46H40AgCu2N8O4,2(C6H6),F6Sb

Dmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 331-338

a=10.2596(2)Å   b=15.4490(3)Å   c=19.2748(4)Å

α=110.1590(10)°   β=97.3400(10)°   γ=95.1390(10)°

C48H38AgCu2N10O4,F6P,C4H8O

C48H38AgCu2N10O4,F6P,C4H8O

Dmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 331-338

a=6.8023(7)Å   b=8.5991(10)Å   c=22.727(3)Å

α=82.210(4)°   β=81.502(4)°   γ=79.614(4)°

C49H38AgCu2F3N10O7S,C8H10

C49H38AgCu2F3N10O7S,C8H10

Dmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 331-338

a=11.9313(2)Å   b=12.1710(3)Å   c=21.7466(5)Å

α=74.9010(10)°   β=82.2040(10)°   γ=64.6080(10)°

C48H38AgCu2N10O4,C6H6,BF4

C48H38AgCu2N10O4,C6H6,BF4

Dmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 331-338

a=6.8931(3)Å   b=8.5345(4)Å   c=22.8014(10)Å

α=79.907(2)°   β=83.993(2)°   γ=78.969(2)°

C23H20CuN4O2

C23H20CuN4O2

Dmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 331-338

a=14.0618(6)Å   b=17.0890(8)Å   c=8.8153(4)Å

α=90.00°   β=107.739(2)°   γ=90.00°

C24H19CuN5O2

C24H19CuN5O2

Dmitry PogozhevStéphane A. BaudronMir Wais Hosseini

Inorganic Chemistry (2010) 49, 331-338

a=7.0712(3)Å   b=15.8916(7)Å   c=9.4970(4)Å

α=90.00°   β=105.4930(10)°   γ=90.00°

4(C71H59N5O8Sn),C5H12

4(C71H59N5O8Sn),C5H12

Aurélie GuenetErnest GrafNathalie KyritsakasMir Wais Hosseini

Inorganic Chemistry (2010) 49, 1872-1883

a=12.5364(7)Å   b=17.3928(8)Å   c=29.3337(14)Å

α=90.00°   β=90.00°   γ=90.00°

C48H28F6N4O4Sn

C48H28F6N4O4Sn

Aurélie GuenetErnest GrafNathalie KyritsakasMir Wais Hosseini

Inorganic Chemistry (2010) 49, 1872-1883

a=8.4354(2)Å   b=10.5166(2)Å   c=12.5859(4)Å

α=104.479(2)°   β=103.888(2)°   γ=105.7210(10)°

C75H67N5O10Sn

C75H67N5O10Sn

Aurélie GuenetErnest GrafNathalie KyritsakasMir Wais Hosseini

Inorganic Chemistry (2010) 49, 1872-1883

a=10.725(3)Å   b=14.584(3)Å   c=22.158(5)Å

α=74.778(9)°   β=80.195(8)°   γ=70.823(8)°

C44H28F2N4Sn,4(C2H3N)

C44H28F2N4Sn,4(C2H3N)

Aurélie GuenetErnest GrafNathalie KyritsakasMir Wais Hosseini

Inorganic Chemistry (2010) 49, 1872-1883

a=7.7712(2)Å   b=12.0438(3)Å   c=12.3260(3)Å

α=86.8510(10)°   β=74.1180(10)°   γ=80.6560(10)°

C58H42N4O4Sn

C58H42N4O4Sn

Aurélie GuenetErnest GrafNathalie KyritsakasMir Wais Hosseini

Inorganic Chemistry (2010) 49, 1872-1883

a=8.1064(15)Å   b=24.374(7)Å   c=11.057(3)Å

α=90.00°   β=94.580(7)°   γ=90.00°

C57H41N5O4Sn

C57H41N5O4Sn

Aurélie GuenetErnest GrafNathalie KyritsakasMir Wais Hosseini

Inorganic Chemistry (2010) 49, 1872-1883

a=8.1031(5)Å   b=24.3383(14)Å   c=11.0133(6)Å

α=90.00°   β=94.753(3)°   γ=90.00°

2(C68H60N4O9Sn),C7H7

2(C68H60N4O9Sn),C7H7

Aurélie GuenetErnest GrafNathalie KyritsakasMir Wais Hosseini

Inorganic Chemistry (2010) 49, 1872-1883

a=13.054(3)Å   b=15.356(3)Å   c=17.510(4)Å

α=66.82(3)°   β=69.99(3)°   γ=75.08(3)°