2023
DOI: 10.3390/polym15143095
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MAO- and Borate-Free Activating Supports for Group 4 Metallocene and Post-Metallocene Catalysts of α-Olefin Polymerization and Oligomerization

Ilya E. Nifant’ev,
Pavel D. Komarov,
Oksana D. Kostomarova
et al.

Abstract: Modern industry of advanced polyolefins extensively uses Group 4 metallocene and post-metallocene catalysts. High-throughput polyolefin technologies demand the use of heterogeneous catalysts with a given particle size and morphology, high thermal stability, and controlled productivity. Conventional Group 4 metal single-site heterogeneous catalysts require the use of high-cost methylalumoxane (MAO) or perfluoroaryl borate activators. However, a number of inorganic phases, containing highly acidic Lewis and Brøn… Show more

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Cited by 7 publications
(4 citation statements)
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“…Among the bis(arylimino)pyridine iron catalysts, the commonly used cocatalysts are MAO and MMAO, and there are some other cocatalysts ( iso ‐butylaluminoxane, ethylaluminoxane and alkylaluminum/urea hybrid) that are mainly used for ethylene oligomerization [32,69–76] . Organoboride cocatalysts show unsatisfactory results in stability and anion coordination capacity, and they are rarely used as activators of the bis(arylimino)pyridine iron catalyst [77–81] . MAO is typically produced via controlled hydrolysis of trimethylaluminum (TMA), leading to a rather complex mixture of species.…”
Section: Mechanistic Generalizationsmentioning
confidence: 99%
See 1 more Smart Citation
“…Among the bis(arylimino)pyridine iron catalysts, the commonly used cocatalysts are MAO and MMAO, and there are some other cocatalysts ( iso ‐butylaluminoxane, ethylaluminoxane and alkylaluminum/urea hybrid) that are mainly used for ethylene oligomerization [32,69–76] . Organoboride cocatalysts show unsatisfactory results in stability and anion coordination capacity, and they are rarely used as activators of the bis(arylimino)pyridine iron catalyst [77–81] . MAO is typically produced via controlled hydrolysis of trimethylaluminum (TMA), leading to a rather complex mixture of species.…”
Section: Mechanistic Generalizationsmentioning
confidence: 99%
“…[32,[69][70][71][72][73][74][75][76] Organoboride cocatalysts show unsatisfactory results in stability and anion coordination capacity, and they are rarely used as activators of the bis(arylimino)pyridine iron catalyst. [77][78][79][80][81] MAO is typically produced via controlled hydrolysis of trimethylaluminum (TMA), leading to a rather complex mixture of species. Besides, some residual TMA from the MAO (typically accounting for up to 1/3 of the total Al content) reduces the catalyst activity.…”
Section: Effect Of Cocatalyst Type On Chain Transfermentioning
confidence: 99%
“…Cr/Al 2 O 3 catalysts have some drawbacks (e.g., lower fragility, porosity, and surface area, more rapid deactivation) in comparison with Cr/SiO 2 systems [ 3 , 4 ]. However, the recent progress in the development of Al 2 O 3 -based supports [ 119 , 120 ] does not exclude the possibility of further studies and applications of alumina as applied to PCCs. In 2018, Groppo and colleagues conducted a separate study of the nature and activity of Cr sites on an alumina surface [ 121 ].…”
Section: Alternatives To Cr/sio 2 and Further Deve...mentioning
confidence: 99%
“…The development of hybrid catalysts is a very attractive idea, but the compatibility of the desired components (R 3 Al and donors for Ziegler–Natta catalysts, MAO or R 3 Al/perfluoroaryl borates for single-site systems, no additives for PCCs) needs to be considered during the formulation process. Some of these additives are mutually incompatible, and it is hardly surprising that only Ziegler–Natta/metallocene hybrid catalysts have demonstrated real prospects to put into practice [ 124 , 125 ] with the use of “activating” supports [ 120 ].…”
Section: Alternatives To Cr/sio 2 and Further Deve...mentioning
confidence: 99%