Synthesis of silica-polymer core-shell nanoparticles by reversible addition-fragmentation chain transfer polymerization

Hybrid nanoparticles hold great promise for a range of applications such as drug-delivery vectors or colloidal crystal self-assemblies. The challenge of preparing highly monodisperse particles for these applications has recently been overcome by using living radical polymerization techniques. In par...

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Vydáno v:	Chemical communications (Cambridge, England) Ročník 49; číslo 80; s. 9077
Hlavní autoři:	Moraes, John, Ohno, Kohji, Maschmeyer, Thomas, Perrier, Sébastien
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	England 01.01.2013
Témata:	Colloids - chemistry Drug Carriers - chemical synthesis Drug Carriers - chemistry Free Radicals - chemistry Nanoparticles - chemistry Polymerization Polymers - chemistry Silicon Dioxide - chemistry Surface Properties
ISSN:	1364-548X, 1364-548X
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Abstract	Hybrid nanoparticles hold great promise for a range of applications such as drug-delivery vectors or colloidal crystal self-assemblies. The challenge of preparing highly monodisperse particles for these applications has recently been overcome by using living radical polymerization techniques. In particular, the use of reversible addition-fragmentation chain transfer (RAFT), initiated from silica surfaces, yields well-defined particles from a range of precursor monomers resulting in nanoparticles of tailored sizes that are accessible via the rational selection of polymerization conditions. Furthermore, using RAFT allows post-polymerization modification to afford multifunctional, monodisperse, nanostructures under mild and non-stringent reaction conditions.
AbstractList	Hybrid nanoparticles hold great promise for a range of applications such as drug-delivery vectors or colloidal crystal self-assemblies. The challenge of preparing highly monodisperse particles for these applications has recently been overcome by using living radical polymerization techniques. In particular, the use of reversible addition-fragmentation chain transfer (RAFT), initiated from silica surfaces, yields well-defined particles from a range of precursor monomers resulting in nanoparticles of tailored sizes that are accessible via the rational selection of polymerization conditions. Furthermore, using RAFT allows post-polymerization modification to afford multifunctional, monodisperse, nanostructures under mild and non-stringent reaction conditions.Hybrid nanoparticles hold great promise for a range of applications such as drug-delivery vectors or colloidal crystal self-assemblies. The challenge of preparing highly monodisperse particles for these applications has recently been overcome by using living radical polymerization techniques. In particular, the use of reversible addition-fragmentation chain transfer (RAFT), initiated from silica surfaces, yields well-defined particles from a range of precursor monomers resulting in nanoparticles of tailored sizes that are accessible via the rational selection of polymerization conditions. Furthermore, using RAFT allows post-polymerization modification to afford multifunctional, monodisperse, nanostructures under mild and non-stringent reaction conditions. Hybrid nanoparticles hold great promise for a range of applications such as drug-delivery vectors or colloidal crystal self-assemblies. The challenge of preparing highly monodisperse particles for these applications has recently been overcome by using living radical polymerization techniques. In particular, the use of reversible addition-fragmentation chain transfer (RAFT), initiated from silica surfaces, yields well-defined particles from a range of precursor monomers resulting in nanoparticles of tailored sizes that are accessible via the rational selection of polymerization conditions. Furthermore, using RAFT allows post-polymerization modification to afford multifunctional, monodisperse, nanostructures under mild and non-stringent reaction conditions.
Author	Ohno, Kohji Perrier, Sébastien Maschmeyer, Thomas Moraes, John
Author_xml	– sequence: 1 givenname: John surname: Moraes fullname: Moraes, John email: sebastien.perrier@sydney.edu.au organization: Key Centre for Polymers & Colloids, School of Chemistry, The University of Sydney, NSW 2006, Australia. sebastien.perrier@sydney.edu.au – sequence: 2 givenname: Kohji surname: Ohno fullname: Ohno, Kohji – sequence: 3 givenname: Thomas surname: Maschmeyer fullname: Maschmeyer, Thomas – sequence: 4 givenname: Sébastien surname: Perrier fullname: Perrier, Sébastien
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SubjectTerms	Colloids - chemistry Drug Carriers - chemical synthesis Drug Carriers - chemistry Free Radicals - chemistry Nanoparticles - chemistry Polymerization Polymers - chemistry Silicon Dioxide - chemistry Surface Properties
Title	Synthesis of silica-polymer core-shell nanoparticles by reversible addition-fragmentation chain transfer polymerization
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