Hybrid silica based catalysts prepared by the encapsulation of zirconocene compound via non-hydrolytic sol-gel method for ethylene polymerization

Hybrid silica based catalysts prepared by the encapsulation of zirconocene compound via non-hydrolytic sol-gel method for ethylene polymerization

[Display omitted] •Hybrid silica catalysts for ethylene polymerization were prepared by non-hydrolytic sol-gel method.•Polymerization activity increases with the addition of organic groups to the support.•The nature of the organic groups of the support showed to affect polymers characteristics.•Poss...

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Veröffentlicht in:Applied catalysis. A, General General, 2018-06, Vol.560, p.225-235
Hauptverfasser: Capeletti, Larissa Brentano, do Carmo Martins Alves, Maria, Cardoso, Mateus Borba, dos Santos, João Henrique Zimnoch
Format: Artikel
Sprache:eng
Schlagworte:
Catalysis
Catalysts
Chlorophyll
Encapsulation
Ethylene
Ethylene polymerization
Fourier transforms
Melt temperature
Morphology
Non-hydrolytic sol-gel
Polymerization
Silica
Silicon dioxide
Small angle X ray scattering
Sol-gel processes
X-ray spectroscopy
Zirconium
Zirconocene
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container_end_page 235
container_issue
container_start_page 225
container_title Applied catalysis. A, General
container_volume 560
creator Capeletti, Larissa Brentano
do Carmo Martins Alves, Maria
Cardoso, Mateus Borba
dos Santos, João Henrique Zimnoch
description [Display omitted] •Hybrid silica catalysts for ethylene polymerization were prepared by non-hydrolytic sol-gel method.•Polymerization activity increases with the addition of organic groups to the support.•The nature of the organic groups of the support showed to affect polymers characteristics.•Possibility of product characteristics tuning depending on the organic groups employed. Different hybrid silica-encapsulated metallocene catalysts were prepared by a non-hydrolytic sol-gel method and evaluated in ethylene polymerization. The employed organic groups to modify the silica network were methyl, octyl, octadecyl, vinyl, phenyl, chloropropyl, iodopropyl and glycidoxypropil and the encapsulated catalyst was bis(cyclopentadienyl)zirconiun IV chloride. The catalysts were characterized in terms of zirconium content, structure and texture via Fourier transform infrared spectroscopy, x-ray absorption spectroscopy, nitrogen porosimetry and small angle x-ray scattering and morphology by transmission electronic microscopy. The polymerzation activity results varied in the range of 1650–2850 kg PE/mol Zr.p.h, showing an increase for all the hybrid materials if compared to the non-hybrid one. Polymers characteristics such as crystallinity, melting temperature and molecular weight were shown to be affected by the nature of the organic moieties present on the catalyst support. These findings highlight the material potentiality for tuning the product characteristics depending on the organosilane present on the catalyst system.
doi_str_mv 10.1016/j.apcata.2018.03.013
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A, General</title><description>[Display omitted] •Hybrid silica catalysts for ethylene polymerization were prepared by non-hydrolytic sol-gel method.•Polymerization activity increases with the addition of organic groups to the support.•The nature of the organic groups of the support showed to affect polymers characteristics.•Possibility of product characteristics tuning depending on the organic groups employed. Different hybrid silica-encapsulated metallocene catalysts were prepared by a non-hydrolytic sol-gel method and evaluated in ethylene polymerization. The employed organic groups to modify the silica network were methyl, octyl, octadecyl, vinyl, phenyl, chloropropyl, iodopropyl and glycidoxypropil and the encapsulated catalyst was bis(cyclopentadienyl)zirconiun IV chloride. 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subjects Catalysis
Catalysts
Chlorophyll
Encapsulation
Ethylene
Ethylene polymerization
Fourier transforms
Melt temperature
Morphology
Non-hydrolytic sol-gel
Polymerization
Silica
Silicon dioxide
Small angle X ray scattering
Sol-gel processes
X-ray spectroscopy
Zirconium
Zirconocene
title Hybrid silica based catalysts prepared by the encapsulation of zirconocene compound via non-hydrolytic sol-gel method for ethylene polymerization
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