850196-08-6Relevant articles and documents
Bis(arylimino)pyridine derivatives of Group 4 metals: Preparation, characterization and activity in ethylene polymerization
Calderazzo, Fausto,Englert, Ulli,Pampaloni, Guido,Santi, Roberto,Sommazzi, Anna,Zinna, Marianna
, p. 914 - 922 (2007/10/03)
Titanium tetrachloride reacts with 2,6-bis[(1-phenylimino)ethyl]pyridine, 1, and 2,6-bis[1-(2,6-diisopropyl-phenylimino)ethyl]pyridine, 2, giving the adducts of general formulae [Ti(1)Cl3]Cl, 3, and [Ti(2)Cl 3]Cl, 6, the latter through the intermediacy of the covalently bonded [Ti(2)Cl4], 4. Heating 6 leads to reduction to the titanium(III) derivative [Ti(2)Cl3], 12, the latter characterized by X-ray diffraction methods. The reaction of [Ti(1)Cl3]Cl with a toluene solution of MAO proceeds with methylation at the ortho-position of the pyridine ring to give the titanium(IV) derivative [Ti(C22H21N 3)Cl3], 8. The reaction of [Ti(2)Cl3]Cl with MAO gives a mixture of products containing [Ti(2)Cl2(OAlCl 3)], 9. Compound 9, which has been prepared independently by reacting 6 with AlOCl, is a rare case of a compound containing the -OAlCl3 moiety, as shown by a single-crystal X-ray diffraction study. From the tetrachlorides of zirconium and hafnium with 1 or 2, the corresponding adducts [M(L)Cl4] have been obtained in high yields. These derivatives of Group 4 metals act as ethylene polymerization catalytic precursors: the substitution of the phenyl ring of the imino fragment strongly influences the catalytic activity which is 5,544 kgPE molTi-1 h-1 in the case of 3 and 267 kgPE molTi -1 h-1 with 6. Catalytic activity has been observed for zirconium and hafnium too, the activity decreasing from zirconium to hafnium, under comparable conditions. The Royal Society of Chemistry 2005.