0000000001301759
AUTHOR
A.l. Spek
Investigations on organoantimony compounds XI. Triorganoantimony(V) compounds containing potentially tridentate ligands
Triorganoantimony(V) compounds of the types RSbVL, in which R = Me or Ph, and L represents a potentially tridentate dianionic Schiff base ligand of the ONO or SNO type, have been synthesized and investigated by spectroscopic (UV, IR, PMR) methods. Molecular weight determinations in benzene reveal the monomeric nature of these compounds. The free ligands, HL, used in this study are:,′-(methylidynenitrilo)diphenol (HSab), -(o-hydroxyphenyl)benzothiazoline (H-Sat), -(o_hydroxyanilino)crotonophenone (HBah), 4-(o-hydroxyphenylimino)--pentanone (HAah) and -acetonyl--methylbenzothiazoline (HAat). Both the UV and the IR data suggest hexacoordinate molecular structures for the complexes RSbL in whic…
Supramolecular hydrogen-bonding tautomeric sulfonamido-phosphinamides: a perfect P-chirogenic memory
P-chirogenic, supramolecular hydrogen-bonding C1-symmetrical sulfonamido–phosphinamides (METAMORPhos) have been successfully prepared. They were all found to possess a characteristic prototropic equilibrium between the PIII and the PV tautomers that is slow on the NMR spectroscopic timescale. Despite the dynamic and reversible protonation of the P centre, the P-chirogenic information was found to be retained in the tautomerization process, even in a protic solvent environment. Several strategies to access the corresponding enantiopure compounds were investigated, such as diastereoselective crystallization, or enantioselective synthesis. It was possible to resolve such a class of chiral liga…
CCDC 140484: Experimental Crystal Structure Determination
Related Article: A.F.Stassen, M.de Vos, P.J.van Koningsbruggen, F.Renz, J.Ensling, H.Kooijman, A.L.Spek, J.G.Haasnoot, P.Gutlich, J.Reedijk|2000|Eur.J.Inorg.Chem.||2231|doi:10.1002/1099-0682(200010)2000:10<2231::AID-EJIC2231>3.0.CO;2-B
CCDC 159367: Experimental Crystal Structure Determination
Related Article: P.J.van Koningsbruggen, Y.Garcia, H.Kooijman, A.L.Spek, J.G.Haasnoot, O.Kahn, J.Linares, E.Codjovi, F.Varret|2001|J.Chem.Soc.,Dalton Trans.||466|doi:10.1039/b008073j
CCDC 145000: Experimental Crystal Structure Determination
Related Article: P.J.van Koningsbruggen, Y.Garcia, O.Kahn, L.Fournes, H.Kooijman, A.L.Spek, J.G.Haasnoot, J.Moscovici, K.Provost, A.Michalowicz, F.Renz, P.Gutlich|2000|Inorg.Chem.|39|1891|doi:10.1021/ic991118n
CCDC 836863: Experimental Crystal Structure Determination
Related Article: F.W.Patureau, M.A.Siegler, A.L.Spek, A.J.Sandee, S.Juge, S.Aziz, A.Berkessel, J.N.H.Reek|2012|Eur.J.Inorg.Chem.||496|doi:10.1002/ejic.201100811
CCDC 145001: Experimental Crystal Structure Determination
Related Article: P.J.van Koningsbruggen, Y.Garcia, O.Kahn, L.Fournes, H.Kooijman, A.L.Spek, J.G.Haasnoot, J.Moscovici, K.Provost, A.Michalowicz, F.Renz, P.Gutlich|2000|Inorg.Chem.|39|1891|doi:10.1021/ic991118n
CCDC 140485: Experimental Crystal Structure Determination
Related Article: A.F.Stassen, M.de Vos, P.J.van Koningsbruggen, F.Renz, J.Ensling, H.Kooijman, A.L.Spek, J.G.Haasnoot, P.Gutlich, J.Reedijk|2000|Eur.J.Inorg.Chem.||2231|doi:10.1002/1099-0682(200010)2000:10<2231::AID-EJIC2231>3.0.CO;2-B
CCDC 836862: Experimental Crystal Structure Determination
Related Article: F.W.Patureau, M.A.Siegler, A.L.Spek, A.J.Sandee, S.Juge, S.Aziz, A.Berkessel, J.N.H.Reek|2012|Eur.J.Inorg.Chem.||496|doi:10.1002/ejic.201100811
CCDC 139309: Experimental Crystal Structure Determination
Related Article: S.Ferrer, P.J.van Koningsbruggen, J.G.Haasnoot, J.Reedijk, H.Kooijman, A.L.Spek, L.Lezama, A.M.Arif, J.S.Miller|1999|J.Chem.Soc.,Dalton Trans.||4269|doi:10.1039/a907740e