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The effect of the amido substituent on polymer molecular weight in propene homopolymerisation by titanium cyclopentadienyl‐amide catalysts
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2000
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EngineeringHindered CatalystOrganic ChemistryChemistryPolymersChemical EngineeringNovel OrganocatalystsPropene HomopolymerisationAmido SubstituentOrganometallic CatalysisHomogeneous CatalysisPolymer ChemistryMaterials ScienceCatalysisChain GrowthOrganometallic PolymerPolymer ScienceHigher Molecular WeightsMolecular CatalysisPolymerization KineticsPolymer Molecular WeightPolymer ReactionPolymer Synthesis
In the homopolymerisation of propene by the cyclopentadienyl-amide titanium catalyst systems [η5,η1-C5H4(CH2)2NR]TiCl2/MAO and [η5,η1-C5H4(CH2)2NR]Ti(CH2Ph)2/B(C6F5)3 (R = tBu, iPr, Me), the catalyst with the smallest substituent (Me) on the amido moiety consistently gives the highest polymer molecular weight. This differs from the trend usually observed in related catalysts with tetramethylcyclopentadienyl-amide ancillary ligands, where larger amide substituents result in higher molecular weights. Based on the present information a hypothesis is formulated in which an increased cation-anion interaction for the less sterically hindered catalyst is responsible for disfavouring chain transfer relative to chain growth.