Joon-Ryeo Park scite author profile

Joon-Ryeo Park

4Publications

33Citation Statements Received

84Citation Statements Given

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103

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Samsung (South Korea)

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Control of molecular weight distribution for polypropylene obtained by a commercial Ziegler–Natta catalyst: Effect of a cocatalyst and hydrogen

Yang

Lee

Park

et al. 2010

J of Applied Polymer Sci

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The polymerization of propylene was carried out with an MgCl 2 -supported TiCl 4 catalyst (with diisobutyl phthalate as an internal donor) in the absence and presence of hydrogen (H 2 ) as a chain-transfer agent. Different structures of alkylaluminum were used as cocatalysts. The effects of the alkyl group size of the cocatalyst, H 2 feed, and feed time on the propylene polymerization behaviors were investigated. The catalyst activity significantly decreased with increasing alkyl group size in the cocatalyst. The molecular weight and polydispersity index (PDI) increased with increasing alkyl group size. With the introduction of H 2 , the catalyst activity increased significantly, whereas the molecular weight and PDI of polypropylene (PP) decreased. Additionally, the effect of the polymerization time in the presence of H 2 on the propylene polymerization was studied. The molecular weight distribution curve was bimodal at short polymerization times in the presence of H 2 , and we could control the molecular weight distribution of PP by changing the polymerization time in the presence of H 2 .

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Control of molecular weight distribution for polypropylene obtained by commercial ziegler-natta catalyst: Effect of electron donor

et al. 2011

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Polymerization of propylene was carried out using a MgCl 2 -supported TiCl 4 catalyst in conjunction with triethylaluminium (TEA) as the cocatalyst and various types of alkoxy silane compounds as an external donor. The effect of the external donor on the performance of the catalyst with different internal donors was investigated. The polydispersity index (PDI) of polypropylene (PP) obtained with the diether and succinate based catalyst were decreased with the introduction of an external donor and the PDI increased for the phthalate based catalyst. The molecular weight and PDI increased with the introduction of an external donor. The highest PDI of PP was obtained by polymerization with di-n-propyldimethoxysilane (DnPDMS) as an external donor. In addition, a mixture of external donors was used to control the PDI of PP and the composition of the catalyst was examined after treated with TEA/external donor. Furthermore, the theoretical PDI value was calculated for a mixture of external donor systems. The PDI of PP could be controlled and predicted while retaining high activity, high isospecificity and high molecular weight by changing the structure of the external donor and/or their mixture.

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Control of molecular weight distribution for polypropylene obtained by commercial Ziegler–Natta catalyst: effect of temperature

et al. 2011

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Copolymerizations of olefins and dienes with homogeneous and heterogeneous catalysts

Lee

Yoon

Park³

et al. 1997

European Polymer Journal

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Joon-Ryeo Park

Control of molecular weight distribution for polypropylene obtained by a commercial Ziegler–Natta catalyst: Effect of a cocatalyst and hydrogen

Control of molecular weight distribution for polypropylene obtained by commercial ziegler-natta catalyst: Effect of electron donor

Control of molecular weight distribution for polypropylene obtained by commercial Ziegler–Natta catalyst: effect of temperature

Copolymerizations of olefins and dienes with homogeneous and heterogeneous catalysts

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