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Amorphous Elastomeric Ultra-High Molar Mass Polypropylene in High Yield by Half-Titanocene Catalysts

Simona Losio, Fabio Bertini, Adriano Vignali, Taiga Fujioka, Kotohiro Nomura, Incoronata Tritto

2024Polymers17 citationsDOIOpen Access PDF

Abstract

Propylene polymerizations with different ketimide-modified half-titanocene catalysts, Cp’TiCl2(N=CtBu2) [Cp’ = C5H5 (1), C5Me5 (2), Me3SiC5H4 (3)], with MAO as a cocatalyst, were investigated. The obtained polymers were studied in detail by determining their microstructure, molar masses, thermal, and mechanical properties. The Cp*-ketimide, (C5Me5)TiCl2(N=CtBu2) (2), exhibited higher catalytic activities than Cp’TiCl2(N=CtBu2) (1,3), yielding higher molar mass polymers, Mw up to 1400 Kg/mol. All the synthesized polypropylenes (PP) are atactic and highly regioregular, with predominant rrrr pentads, especially PP prepared with catalyst 1. Differential scanning calorimetry (DSC) established that the polymers are fully amorphous aPP, and no melting endotherm events are detected. Glass transition temperatures were detected between −2 and 2 °C. These polypropylenes have been established to be high-performance thermoplastic elastomers endowed with remarkably high ductility, and a tensile strain at break higher than 2000%.

Topics & Concepts

Molar massEndothermDifferential scanning calorimetryPolypropyleneMaterials scienceGlass transitionAmorphous solidPolymerCatalysisElastomerThermoplastic elastomerPolymer chemistryComposite materialUltimate tensile strengthDuctility (Earth science)Yield (engineering)Chemical engineeringCopolymerChemistryOrganic chemistryEngineeringPhysicsThermodynamicsCreepOrganometallic Complex Synthesis and CatalysisSynthetic Organic Chemistry MethodsOrganoboron and organosilicon chemistry