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A commercially viable solution process to control long-chain branching in polyethylene

Robert D. J. Froese, Daniel J. Arriola, Jaap den Doelder, Jianbo Hou, Teresita Kashyap, Keran Lu, Luca Martinetti, Bryan D. Stubbert

2024Science50 citationsDOI

Abstract

In polyolefins, long-chain branching is introduced through an energy-intensive, high-pressure radical process to form low-density polyethylene (LDPE). In the current work, we demonstrated a ladder-like polyethylene architecture through solution polymerization of ethylene and less than 1 mole % of α,ω-dienes, using a dual-chain catalyst. The ladder-branching mechanism requires catalysts with two growing polymer chains on the same metal center, thus enchaining the diene without the requirement of a steady-state concentration of pendant vinyl groups. Molecular weight distributions lacking a high-molecular weight tail, distinctive Mark-Houwink signatures, nuclear magnetic resonance characterization, and shear and extensional rheology consistent with highly branched polyethylene architectures are described. This approach represents an industrially viable solution-polymerization process capable of producing controlled long-chain branched polyethylene with rheological properties comparable to those of LDPE or its blends with linear low-density polyethylene (LLDPE).

Topics & Concepts

Branching (polymer chemistry)PolyethyleneLow-density polyethyleneLinear low-density polyethylenePolymer chemistryMaterials scienceRheologyPolymerPolymerizationMolar mass distributionChemical engineeringComposite materialEngineeringPolymer crystallization and propertiesRheology and Fluid Dynamics StudiesAdvanced Physical and Chemical Molecular Interactions
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