709673-57-4

Upstream product

• 762-99-2 titanium(IV) dichlorodiisopropylate 
• 709042-48-8 CH₂CHCH₂OC₆H₄NCHC₆H₃OH(C(CH₃)3) 
• 88271-75-4 4-(allyloxy)aniline hydrochloride 
• 1400812-10-3 2-[(4-allyloxyphenylimino)methyl]-6-tertbutylphenol 
• 1688-69-3 p-allyloxyaniline 

Relevant academic research and scientific papers

Design of postmetallocene catalytic systems of arylimine type for olefin polymerization: XIV.* synthesis of (N-allyloxyaryl)salicylaldimine ligands and their complexes with titanium(IV) dichloride

By reaction of salicylaldehydes with bulky substituents in the positions 3 and 5 with o-, m-, and p-allyloxyaniline hydrochlorides in the presence of triethylamine a series of the corresponding (N-aryl)- salicylaldimines was obtained, which with TiCl2(OPr-i)2 afforded complexes of titanium(IV) dichloride L2TiCl2. Pleiades Publishing, Ltd., 2012.

Multicentered self-immobilized ethylene polymerization catalysts based on functionalized titanium halide salicylaldiminate complexes for the synthesis of ultra-high-molecular-weight polyethylene

Specifi c features of ethylene polymerization using a new group of catalytic systems based on ten methylalumoxane-activated titanium halide salicylaldiminato complexes functionalized with ?-vinylalkoxy groups and containing tert-butyl substituents in the phenoxide moiety were studied. The catalytic activity of the new group of activated complexes is strongly affected by the position of the ?-vinylalkoxy functional group and by the number and position of substituents in the phenoxide moiety. These factors determine the ratio of the homogeneous and heterogeneous steps of the polymerization as a result of the catalyst self-immobilization onto the polymer formed, and also the molecular characteristics of the polymer obtained at 20, 40, and 60°C and ethylene pressure of 0.4 MPa. The possibility and conditions of preparing ultra-high-molecular-weight polyethylene with improved morphology were revealed. Pleiades Publishing, Ltd., 2012.