Structures by: Thouvenot R.

Total: 33

K17 Na2 ((B W11 O39)2 (H5 Mo13 W2 O48)) (H2 O)21

B2K12.5Mo13Na0.5O147W24

Leclerc-Laronze, N.Cadot, E.Thouvenot, R.Marrot, J.

Angew. Chem. Int. ed. (2009) 48, 4986-4989

a=29.665Å   b=39.688Å   c=13.9573Å

α=90°   β=90°   γ=90°

Cs12 (N H4)16 ((B W11 O39)4 (H16 Mo8 W8 O52)) (H2 O)22

B4Cs12.01Mo8O230W52

Cadot, E.Marrot, J.Leclerc-Laronze, N.Thouvenot, R.

Angew. Chem. Int. ed. (2009) 48, 4986-4989

a=44.833Å   b=25.3156Å   c=26.0622Å

α=90°   β=114.377°   γ=90°

C29H57Mo6O19N1

C29H57Mo6O19N1

Proust, AnnaThouvenot, RenéHerson, Patrick

Journal of the Chemical Society, Dalton Transactions (1999) 1 51

a=12.406(16)Å   b=16.065(9)Å   c=21.851(8)Å

α=90°   β=90°   γ=90°

C40H56O10Ru4W2,3(H2O1)

C40H56O10Ru4W2,3(H2O1)

Artero, VincentProust, AnnaHerson, PatrickThouvenot, RenéGouzerh, Pierre

Chemical Communications (2000) 10 883

a=13.857(7)Å   b=13.898(8)Å   c=14.232(6)Å

α=114.01(4)°   β=91.01(4)°   γ=112.79(4)°

C20H56K4Nb6O19Ru2,14(O)

C20H56K4Nb6O19Ru2,14(O)

Laurencin, DanielleThouvenot, RenéBoubekeur, KamalProust, Anna

Dalton transactions (Cambridge, England : 2003) (2007) 13 1334-1345

a=9.4520(6)Å   b=14.3330(17)Å   c=20.2351(19)Å

α=103.546(8)°   β=99.832(7)°   γ=95.962(5)°

Fe2Mn2O112P4W30(H2O)214,Na1414,(H2O)55

Fe2Mn2O112P4W30(H2O)214,Na1414,(H2O)55

Ruhlmann, LaurentCanny, JacquelineVaissermann, JacquelineThouvenot, René

Dalton transactions (Cambridge, England : 2003) (2004) 5 794-800

a=13.829(9)Å   b=13.961(16)Å   c=23.110(10)Å

α=90.22(6)°   β=103.26(4)°   γ=118.86(7)°

Co2(H2O)2Fe2P4W30O11214,Na1414,(H2O)64

Co2(H2O)2Fe2P4W30O11214,Na1414,(H2O)64

Ruhlmann, LaurentCanny, JacquelineVaissermann, JacquelineThouvenot, René

Dalton transactions (Cambridge, England : 2003) (2004) 5 794-800

a=13.6645(16)Å   b=13.8257(16)Å   c=21.173(2)Å

α=92.352(9)°   β=95.650(9)°   γ=118.634(8)°

8.5(Na)1.5(H),(C20H28O70Ru2Sb2W20)10,42(H2O)

8.5(Na)1.5(H),(C20H28O70Ru2Sb2W20)10,42(H2O)

Danielle LaurencinRichard VillaneauPatrick HersonRene ThouvenotYves Jeannin

Chemical Communications (2005)

a=15.914(6)Å   b=15.932(5)Å   c=24.166(9)Å

α=100.88(3)°   β=92.11(3)°   γ=97.96(3)°

C90.7H79.05F36N24.35P6Ru3

C90.7H79.05F36N24.35P6Ru3

Polson, Matthew I JHanan, Garry STaylor, Nicholas JHasenknopf, BernoldThouvenot, René

Chemical communications (Cambridge, England) (2004) 11 1314-1315

a=12.406(3)Å   b=22.388(6)Å   c=22.576(6)Å

α=116.385(6)°   β=95.147(6)°   γ=96.653(6)°

H172K18Mo12Na14O298P8W48

H172K18Mo12Na14O298P8W48

Filipa L. SousaHartmut BöggeAlice MercaPierre GouzerhRené ThouvenotAchim Müller

Chem. Commun. (2009) 7491-7493

a=25.6839(8)Å   b=25.6839(8)Å   c=22.0032(9)Å

α=90.00°   β=90.00°   γ=90.00°

C74H135Cl6Mo6N5O16

C74H135Cl6Mo6N5O16

Joseph B. StrongGlenn P. A. YapRobert OstranderLouise M. Liable-SandsArnold L. RheingoldRené ThouvenotPierre GouzerhEric A. Maatta

Journal of the American Chemical Society (2000) 122, 639-649

a=19.573(4)Å   b=21.725(5)Å   c=23.668(6)Å

α=92.03(3)°   β=101.77(3)°   γ=98.51(2)°

C36H81Mo6N3O18

C36H81Mo6N3O18

Joseph B. StrongGlenn P. A. YapRobert OstranderLouise M. Liable-SandsArnold L. RheingoldRené ThouvenotPierre GouzerhEric A. Maatta

Journal of the American Chemical Society (2000) 122, 639-649

a=16.873(3)Å   b=20.048(3)Å   c=31.706(6)Å

α=90.00°   β=90.00°   γ=90.00°

C96H165Cl4Mo6N7O14

C96H165Cl4Mo6N7O14

Joseph B. StrongGlenn P. A. YapRobert OstranderLouise M. Liable-SandsArnold L. RheingoldRené ThouvenotPierre GouzerhEric A. Maatta

Journal of the American Chemical Society (2000) 122, 639-649

a=59.94(4)Å   b=15.486(13)Å   c=28.99(2)Å

α=90.00°   β=112.02(2)°   γ=90.00°

C44H89Mo6N3O18

C44H89Mo6N3O18

Joseph B. StrongGlenn P. A. YapRobert OstranderLouise M. Liable-SandsArnold L. RheingoldRené ThouvenotPierre GouzerhEric A. Maatta

Journal of the American Chemical Society (2000) 122, 639-649

a=18.432(7)Å   b=20.580(9)Å   c=31.379(12)Å

α=90.00°   β=90.00°   γ=90.00°

(Cs)3(K)3,C10H16O40P1Ru1W116,4(H20)

(Cs)3(K)3,C10H16O40P1Ru1W116,4(H20)

Artero, V.Laurencin, D.Villanneau, R.Thouvenot, R.Herson, P.Gouzerh, P.Proust, A.

Inorganic Chemistry (2005) 44, 8 2826-2835

a=21.631(6)Å   b=12.0258(17)Å   c=21.892(4)Å

α=90°   β=95.85(2)°   γ=90°

4(K)3(Na),(C12H12O80Ru2W23)7,6(H20)

4(K)3(Na),(C12H12O80Ru2W23)7,6(H20)

Artero, V.Laurencin, D.Villanneau, R.Thouvenot, R.Herson, P.Gouzerh, P.Proust, A.

Inorganic Chemistry (2005) 44, 8 2826-2835

a=13.387(13)Å   b=19.829(3)Å   c=20.249(3)Å

α=95.20(1)°   β=97.82(4)°   γ=97.33(3)°

7(K),(C14H16O80P2Ru2W23)7,4(H20)

7(K),(C14H16O80P2Ru2W23)7,4(H20)

Artero, V.Laurencin, D.Villanneau, R.Thouvenot, R.Herson, P.Gouzerh, P.Proust, A.

Inorganic Chemistry (2005) 44, 8 2826-2835

a=23.130(6)Å   b=19.726(5)Å   c=24.537(8)Å

α=90°   β=117.69(2)°   γ=90°

4(K)3(Na),(C12H12O80Ru2W23)7,6(H20)

4(K)3(Na),(C12H12O80Ru2W23)7,6(H20)

Artero, V.Laurencin, D.Villanneau, R.Thouvenot, R.Herson, P.Gouzerh, P.Proust, A.

Inorganic Chemistry (2005) 44, 8 2826-2835

a=13.387(13)Å   b=19.829(3)Å   c=20.249(3)Å

α=95.20(1)°   β=97.82(4)°   γ=97.33(3)°

(Cs)3(K)3,C10H16O40P1Ru1W116,4(H20)

(Cs)3(K)3,C10H16O40P1Ru1W116,4(H20)

Artero, V.Laurencin, D.Villanneau, R.Thouvenot, R.Herson, P.Gouzerh, P.Proust, A.

Inorganic Chemistry (2005) 44, 8 2826-2835

a=21.631(6)Å   b=12.0258(17)Å   c=21.892(4)Å

α=90°   β=95.85(2)°   γ=90°

7(K),(C14H16O80P2Ru2W23)7,4(H20)

7(K),(C14H16O80P2Ru2W23)7,4(H20)

Artero, V.Laurencin, D.Villanneau, R.Thouvenot, R.Herson, P.Gouzerh, P.Proust, A.

Inorganic Chemistry (2005) 44, 8 2826-2835

a=23.130(6)Å   b=19.726(5)Å   c=24.537(8)Å

α=90°   β=117.69(2)°   γ=90°

C6H16Mo6N3O27P12,(k1)2,(H2O)8

C6H16Mo6N3O27P12,(k1)2,(H2O)8

Ulrich KortzJacqueline VaissermannRené ThouvenotPierre Gouzerh

Inorganic Chemistry (2003) 42, 1135-1139

a=14.092(3)Å   b=20.696(2)Å   c=12.199(4)Å

α=90°   β=90°   γ=90°

C4H6KMo5O26P2Rb4

C4H6KMo5O26P2Rb4

Ulrich KortzCatherine MarquerRené ThouvenotMartine Nierlich

Inorganic Chemistry (2003) 42, 1158-1162

a=10.146(2)Å   b=13.704(3)Å   c=20.577(4)Å

α=90.00°   β=94.88(3)°   γ=90.00°

(C29H22N5O1Ru11)(P1F61)

(C29H22N5O1Ru11)(P1F61)

Muriel BrissardOdile ConvertMichel GruselleCarine Guyard-DuhayonRené Thouvenot

Inorganic Chemistry (2003) 42, 1378-1385

a=22.079(11)Å   b=16.874(3)Å   c=17.533(8)Å

α=90°   β=109.08(3)°   γ=90°

C6H33K2Mo6N3O36.5P

C6H33K2Mo6N3O36.5P

Ulrich KortzJacqueline VaissermannRené ThouvenotPierre Gouzerh

Inorganic Chemistry (2003) 42, 1135-1139

a=14.1180(17)Å   b=20.660(3)Å   c=12.1908(15)Å

α=90.00°   β=90.00°   γ=90.00°

C7H35K2Mo6N3O35.5P

C7H35K2Mo6N3O35.5P

Ulrich KortzJacqueline VaissermannRené ThouvenotPierre Gouzerh

Inorganic Chemistry (2003) 42, 1135-1139

a=14.1643(6)Å   b=20.8658(8)Å   c=12.2235(5)Å

α=90.00°   β=90.00°   γ=90.00°

(C8H20W10P1Si2O38)(C48H108N3)

(C8H20W10P1Si2O38)(C48H108N3)

Agnès MazeaudYves DromzeeRené Thouvenot

Inorganic Chemistry (2000) 39, 4735-4740

a=44.762(10)Å   b=19.032(4)Å   c=22.079(8)Å

α=90°   β=98.893(2)°   γ=90°

La2,P2W18O68,4(P1O1C4H9),10(N1O1C3H7),6(H2O1),4(N1C16H36)

La2,P2W18O68,4(P1O1C4H9),10(N1O1C3H7),6(H2O1),4(N1C16H36)

Richard VillanneauDavid RacimorElisabeth Messner-HenningHélène RousselièreSébastien PicartRené ThouvenotAnna Proust

Inorganic Chemistry (2011) 50, 1164-1166

a=14.233(2)Å   b=16.8840(16)Å   c=22.433(3)Å

α=90.792(11)°   β=97.239(13)°   γ=107.305(12)°

Zr2,P2W18O68,4(P1O1C6H5),2(N1O1C3H7),2(H1O1),4(N1C16H36)

Zr2,P2W18O68,4(P1O1C6H5),2(N1O1C3H7),2(H1O1),4(N1C16H36)

Richard VillanneauDavid RacimorElisabeth Messner-HenningHélène RousselièreSébastien PicartRené ThouvenotAnna Proust

Inorganic Chemistry (2011) 50, 1164-1166

a=24.2257(14)Å   b=24.138(7)Å   c=15.099(3)Å

α=90.00°   β=102.763(10)°   γ=90.00°

Zr2,P2W18O68,4(P1O1C4H9),6(N1O1C3H7),2(H1O1),4(N1C16H36)

Zr2,P2W18O68,4(P1O1C4H9),6(N1O1C3H7),2(H1O1),4(N1C16H36)

Richard VillanneauDavid RacimorElisabeth Messner-HenningHélène RousselièreSébastien PicartRené ThouvenotAnna Proust

Inorganic Chemistry (2011) 50, 1164-1166

a=15.162(4)Å   b=27.858(5)Å   c=20.453(3)Å

α=90.00°   β=93.381(10)°   γ=90.00°

Zr2,P2W18O68,4(POC4H9),2(H2O),2(HO),4(NC16H36),4(C2NH3)

Zr2,P2W18O68,4(POC4H9),2(H2O),2(HO),4(NC16H36),4(C2NH3)

Richard VillanneauDavid RacimorElisabeth Messner-HenningHélène RousselièreSébastien PicartRené ThouvenotAnna Proust

Inorganic Chemistry (2011) 50, 1164-1166

a=28.125(6)Å   b=22.992(3)Å   c=28.543(3)Å

α=90.00°   β=115.937(8)°   γ=90.00°

C26H26Si1

C26H26Si1

Agenet, NicolasMirebeau, Jean-HuguesPetit, MarcThouvenot, RenéGandon, VincentMalacria, MaxAubert, Corinne

Organometallics (2007) 26, 4 819

a=9.6526(4)Å   b=10.6303(8)Å   c=11.3573(7)Å

α=100.878(5)°   β=96.738(5)°   γ=113.755(4)°

C42H36Co1P1Si1

C42H36Co1P1Si1

Agenet, NicolasMirebeau, Jean-HuguesPetit, MarcThouvenot, RenéGandon, VincentMalacria, MaxAubert, Corinne

Organometallics (2007) 26, 4 819

a=17.742(5)Å   b=18.117(9)Å   c=20.848(12)Å

α=90°   β=99.46(4)°   γ=90°