Direct synthesis of linear low‐density polyethylene of ethylene/1‐hexene from ethylene with a tandem catalytic system in a single reactor
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Abstract Tandem catalysis offers a promising synthetic route to the production of linear low‐density polyethylene. This article reports the use of homogeneous tandem catalytic systems for the synthesis of ethylene/1‐hexene copolymers from ethylene stock as the sole monomer. The reported catalytic systems employ the tandem action between an ethylene trimerization catalyst, (η5 ‐C5 H4 CMe2 C6 H5 )TiCl3 (1 )/modified methylaluminoxane (MMAO), and a copolymerization metallocene catalyst, [(η5 ‐C5 Me4 )SiMe2 (t BuN)]TiCl2 (2 )/MMAO or rac ‐Me2 Si(2‐MeBenz[e ]Ind)2 ZrCl2 (3 )/MMAO. During the reaction, 1 /MMAO in situ generates 1‐hexene with high activity and high selectivity, and simultaneously 2 /MMAO or 3 /MMAO copolymerizes ethylene with the produced 1‐hexene to generate butyl‐branched polyethylene. We have demonstrated that, by the simple manipulation of the catalyst molar ratio and polymerization conditions, a series of branched polyethylenes with melting temperatures of 60–128 °C, crystallinities of 5.4–53%, and hexene percentages of 0.3–14.2 can be efficiently produced. © 2004 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 42: 4327–4336, 2004
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BRANCHED POLYETHYLENE
COPOLYMERIZATION
ETHENE
IRON
METALLOCENE CATALYSTS
OLEFIN POLYMERIZATION
Physical Sciences
Polymer Science
Science & Technology
TRIMERIZATION
copolymerization
ethylene copolymerization
ethylene trimerization
linear low-density polyethylene (LLDPE)
metallocene catalysts
polyethylene
tandem catalytic system
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