Downloads provided by UsageCountsNMR study of the comonomer effect in metallocene poly(propylene‐co‐1‐pentene) copolymers synthesized at low temperature
Copyright policy ) García-Peñas, A.; Martínez, Carmen; Cerrada, María L.; Pérez, Ernesto; Gómez-Elvira González, José Manuel;
NMR study of the comonomer effect in metallocene poly(propylene‐co‐1‐pentene) copolymers synthesized at low temperature
ABSTRACTThe influence of the comonomer in the synthesis of poly(propylene‐co−1‐pentene) copolymers, with rac‐(dimethylsilylbis(1‐indenyl))ZrCl2/Methylaluminoxane at low temperature, has been studied. Changes in the catalyst activity and molecular weight have been analyzed as a function of copolymer composition, and associated with both content and nature of chain defects. The thorough characterization of chain‐end double bonds by means of the 1H NMR technique highlights the particular chain termination pathway, which underlies the so‐called comonomer effect. A specific termination mechanism is proposed based on the preferential regio‐irregular interaction of the active site with 1‐pentene molecules, instead of the one related to the β‐H atom of the last regular inserted unit, either propene or 1‐pentene. © 2016 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2017, 55, 843–854
- Repsol (Spain) Spain
- Spanish National Research Council Spain
Comonomer effect, Polypropylene copolymers, Metallocene catalysts, Polyolefins, A-olefins, Microstructure, NMR
Comonomer effect, Polypropylene copolymers, Metallocene catalysts, Polyolefins, A-olefins, Microstructure, NMR
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