Triple-hybrid sub-micron particles: Ag@polymer@silica

Hadas Naor; Michael Shuster; David Avnir

doi:10.1007/s10971-011-2481-0

Triple-hybrid sub-micron particles: Ag@polymer@silica

Hadas Naor, Michael Shuster, David Avnir^*

^*Corresponding author for this work

Institute of Chemistry

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

6 Scopus citations

Abstract

Methods for the synthesis of triple-hybrid (metal, organic polymer, ceramic component) submicron particles of silver @ (polymer@silica) spheres were developed. The polymer@silica element of the hybrid was obtained by the entrapment of an organic polymer in silica, synthesized from its precursor monomers-tetraethoxysilane or sodium silicate-within O/W or W/O emulsion droplets, stabilized by a selected surfactant. This general method was developed for hydrophobic (polyethylene, PE), hydrophilic (polyethylene glycol, PEG) and amphiphilic (PE-b-PEG) polymers. The silver component, prepared from its salt, was incorporated by several methods, either simultaneously with the above polymer entrapment, or step-wise. Full characterization of these hybrids and proof of their triple nature is provided, including its pronounced antibacterial activity. The use of these particles as functional fillers for polypropylene fibers is demonstrated.

Original language	English
Pages (from-to)	194-203
Number of pages	10
Journal	Journal of Sol-Gel Science and Technology
Volume	59
Issue number	1
DOIs	https://doi.org/10.1007/s10971-011-2481-0
State	Published - Jul 2011

Keywords

Antibacterial activity
Hybrid-materials
Materials synthesis
Particles
Polymers
Silica
Silver

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10.1007/s10971-011-2481-0

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abstract = "Methods for the synthesis of triple-hybrid (metal, organic polymer, ceramic component) submicron particles of silver @ (polymer@silica) spheres were developed. The polymer@silica element of the hybrid was obtained by the entrapment of an organic polymer in silica, synthesized from its precursor monomers-tetraethoxysilane or sodium silicate-within O/W or W/O emulsion droplets, stabilized by a selected surfactant. This general method was developed for hydrophobic (polyethylene, PE), hydrophilic (polyethylene glycol, PEG) and amphiphilic (PE-b-PEG) polymers. The silver component, prepared from its salt, was incorporated by several methods, either simultaneously with the above polymer entrapment, or step-wise. Full characterization of these hybrids and proof of their triple nature is provided, including its pronounced antibacterial activity. The use of these particles as functional fillers for polypropylene fibers is demonstrated.",

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AU - Shuster, Michael

AU - Avnir, David

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N2 - Methods for the synthesis of triple-hybrid (metal, organic polymer, ceramic component) submicron particles of silver @ (polymer@silica) spheres were developed. The polymer@silica element of the hybrid was obtained by the entrapment of an organic polymer in silica, synthesized from its precursor monomers-tetraethoxysilane or sodium silicate-within O/W or W/O emulsion droplets, stabilized by a selected surfactant. This general method was developed for hydrophobic (polyethylene, PE), hydrophilic (polyethylene glycol, PEG) and amphiphilic (PE-b-PEG) polymers. The silver component, prepared from its salt, was incorporated by several methods, either simultaneously with the above polymer entrapment, or step-wise. Full characterization of these hybrids and proof of their triple nature is provided, including its pronounced antibacterial activity. The use of these particles as functional fillers for polypropylene fibers is demonstrated.

AB - Methods for the synthesis of triple-hybrid (metal, organic polymer, ceramic component) submicron particles of silver @ (polymer@silica) spheres were developed. The polymer@silica element of the hybrid was obtained by the entrapment of an organic polymer in silica, synthesized from its precursor monomers-tetraethoxysilane or sodium silicate-within O/W or W/O emulsion droplets, stabilized by a selected surfactant. This general method was developed for hydrophobic (polyethylene, PE), hydrophilic (polyethylene glycol, PEG) and amphiphilic (PE-b-PEG) polymers. The silver component, prepared from its salt, was incorporated by several methods, either simultaneously with the above polymer entrapment, or step-wise. Full characterization of these hybrids and proof of their triple nature is provided, including its pronounced antibacterial activity. The use of these particles as functional fillers for polypropylene fibers is demonstrated.

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KW - Silica

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Triple-hybrid sub-micron particles: Ag@polymer@silica

Abstract

Keywords

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