Cross-linked polyethylene@silica: The first full interpenetrating network hybrid particles

Hila Elimelech; Jean Marie Nedelec; Adeline Hardy-Dessources; Florence Babonneau; David Avnir

doi:10.1039/b923672d

Cross-linked polyethylene@silica: The first full interpenetrating network hybrid particles

Hila Elimelech, Jean Marie Nedelec^*, Adeline Hardy-Dessources, Florence Babonneau, David Avnir

^*Corresponding author for this work

Institute of Chemistry

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

Sub-micron hybrid particles, where the two components are cross-linked polyethylene (PE) and silica, were prepared by the simultaneous cross-linking of PE and polycondensation of tetraethoxysilane in hot, surfactant-stabilized O/W micelles. The resulting material is new from two points of view: it is a previously unknown hybrid material made of the simplest organic and inorganic cross-linked polymers - cross-linked PE and silica; and the particles are the first full interpenetrating network (IPN) hybrid particles. Two PE cross-linkers are compared. Full material characterization is provided, including SEM, TGA, surface area analysis, solid-state NMR, thermoporosimetry, PE-leaching experiments and zeta potential measurements.

Original language	English
Pages (from-to)	9515-9522
Number of pages	8
Journal	Journal of Materials Chemistry
Volume	20
Issue number	42
DOIs	https://doi.org/10.1039/b923672d
State	Published - 14 Nov 2010

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abstract = "Sub-micron hybrid particles, where the two components are cross-linked polyethylene (PE) and silica, were prepared by the simultaneous cross-linking of PE and polycondensation of tetraethoxysilane in hot, surfactant-stabilized O/W micelles. The resulting material is new from two points of view: it is a previously unknown hybrid material made of the simplest organic and inorganic cross-linked polymers - cross-linked PE and silica; and the particles are the first full interpenetrating network (IPN) hybrid particles. Two PE cross-linkers are compared. Full material characterization is provided, including SEM, TGA, surface area analysis, solid-state NMR, thermoporosimetry, PE-leaching experiments and zeta potential measurements.",

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AU - Elimelech, Hila

AU - Nedelec, Jean Marie

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AU - Babonneau, Florence

AU - Avnir, David

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AB - Sub-micron hybrid particles, where the two components are cross-linked polyethylene (PE) and silica, were prepared by the simultaneous cross-linking of PE and polycondensation of tetraethoxysilane in hot, surfactant-stabilized O/W micelles. The resulting material is new from two points of view: it is a previously unknown hybrid material made of the simplest organic and inorganic cross-linked polymers - cross-linked PE and silica; and the particles are the first full interpenetrating network (IPN) hybrid particles. Two PE cross-linkers are compared. Full material characterization is provided, including SEM, TGA, surface area analysis, solid-state NMR, thermoporosimetry, PE-leaching experiments and zeta potential measurements.

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Cross-linked polyethylene@silica: The first full interpenetrating network hybrid particles

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