李志波

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Influence of the N-H functionality on activating O,N,N-titanium complexes and controlling polyethylene molecular weights and distributions

发布时间:2024-12-24 点击次数:

关键字:OLEFIN POLYMERIZATION; ETHYLENE POLYMERIZATION; CATALYSTS; COPOLYMERIZATION; PERFORMANCE; LIGANDS; FACILE; TRIMERIZATION; POLYPROPYLENE; DISCOVERY
摘要:The titanium trichloride complex 1-TiCl3 ((C6H5-NH-C6H4-N00000000000000000000000000000000111111110000000011111111000000000000000000000000CH-C6H2-3,5-tBu-2-O)TiCl3) with the phenoxy-imine-amine (O,N,N) ligand containing an N-H group was synthesized and used as a pre-catalyst for olefin polymerization. Its structure, activation mechanism, and catalytic properties were compared with those of the titanium dichloride analogue 1-TiCl2 ((C6H5-N-C6H4-NCH-C6H2-3,5-tBu-2-O)TiCl2) bearing the same ligand but devoid of N-H groups. Under optimum conditions, 1-TiCl3 showed unprecedented activity of up to 5.10 x 108 g(PE) mol-1(Ti) h-1 leading to polyethylenes with unimodal or bimodal distributions (2.9 <= D (dispersity) <= 6.1), while 1-TiCl2 afforded polyethylene with narrow and unimodal distribution (D = 1.8). In situ NMR and single-crystal X-ray diffraction experiments revealed that the activation of 1-TiCl3 with 5 equiv. of d-MAO (dried methylaluminoxane) was slow, probably resulting in the production of polyethylene with a bimodal/broad distribution. When pre-activated with 200 equiv. of d-MAO, 1-TiCl3 and 1-TiCl2 showed very similar catalytic properties, including their activity and the molecular weights and mass distributions of the polymers formed, which is fully consistent with the results of in situ NMR studies. For comparison, a methyl group was introduced on the amine-N and the corresponding ligand 2-L (C6H5-NMe-C6H4-NCH-C6H2-3,5-tBu-2-OH) afforded 2-TiCl3 ((C6H5-NMe-C6H4-NCH-C6H2-3,5-tBu-2-O)TiCl3). Its catalytic properties were similar whether pre-activation with excess d-MAO was performed or not, further establishing the strong influence of the amine-N substituent on catalysis. Remarkably, 2-TiCl3 exhibited high activity (8.10 x 107 g(polymer) mol-1(Ti) h-1) in ethylene/1-octene copolymerization and produced a poly(ethylene-co-1-octene) copolymer with an ultra-high-molecular-weight and narrow distribution (Mw = 362 x 104 g mol-1, D = 1.4). Ti complexes supported by O,N,N-ligands show unprecedented activity in ethylene polymerization and produce polymers with unimodal/narrow or bimodal/broad distributions, depending upon amine-N substituents and catalyst pre-activation or not.
卷号:11
期号:2
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