Development of Star Polymers as Unimolecular Containers for Nanomaterials
Identifieur interne : 002386 ( Main/Exploration ); précédent : 002385; suivant : 002387Development of Star Polymers as Unimolecular Containers for Nanomaterials
Auteurs : Haifeng Gao [États-Unis]Source :
- Macromolecular Rapid Communications [ 1022-1336 ] ; 2012-05-14.
English descriptors
- Teeft :
- Aggregation, Amphiphilic, Amphiphilic star polymer, Amphiphilic star polymers, Angew, Bioconjugate chem, Biomacromolecules, Block copolymer arms, Block copolymers, Catalysis, Catalyst, Catalytic groups, Central core, Chem, Commun, Copolymer, Core domain, Core environment, Dendrimers, Drug delivery, Facile synthesis, Functionality distribution, Gmbh, Gohy, Guest molecules, Hawker, Homoarm star, Homopolymer arms, Hydrophobic, Hyperbranched, Hyperbranched core, Individual arms, Inner block, Inner blocks, Inorganic nanoparticles, Kgaa, Macromol, Macromolecular, Macromolecule, Matyjaszewski, Meier, Metal nanoparticles, Methacrylate, Miktoarm, Miktoarm star, Miktoarm star polymers, Molecule, Multivalent effect, Nanomaterials, Nanoparticles, Notre dame, Outer shell, Poegma, Poegma core, Polydispersity, Polym, Polymer, Polymer carriers, Polymer catalysts, Polymerization techniques, Precursor, Rapid commun, Rapid communications development, Recent development, Small molecules, Spatial resolution, Star, Star block copolymers, Star core, Star molecule, Star polymer, Star polymers, Star structures, Star templates, Synthetic polymers, Tunable sizes, Unimolecular, Unimolecular container, Unimolecular containers, Verlag, Verlag gmbh, Weinheim, Wooley, Zhang.
Abstract
Star polymers containing one central core surrounded by multiple radiating arms represent an intriguing type of globular platform to be used as unimolecular containers and reactors. The core domain can encapsulate guest “cargos”, whereas protective shell and chain ends can be functionalized with reactive groups and ligands. This Feature Article highlights the recent development on using core‐shell structured amphiphilic star polymers as unimolecular containers for applications in drug delivery, catalysis, and template of hybrid nanomaterials. As compared with dendrimers, star polymers enjoy advantages of facile synthesis, flexible compositions, and tunable sizes, which allow them being able to carry more and multiple “cargos” within one molecule.
Star polymers enjoying the advantages of facile synthesis, flexible compositions, and tunable sizes are an important material to be used as unimolecular containers and reactors. This Feature Article highlights the recent development on synthesis and application of core‐shell structured star polymers for applications in drug delivery, catalysis, and templates for hybrid nanomaterials.
Url:
DOI: 10.1002/marc.201200005
Affiliations:
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type="ISSN">1022-1336</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Aggregation</term><term>Amphiphilic</term><term>Amphiphilic star polymer</term><term>Amphiphilic star polymers</term><term>Angew</term><term>Bioconjugate chem</term><term>Biomacromolecules</term><term>Block copolymer arms</term><term>Block copolymers</term><term>Catalysis</term><term>Catalyst</term><term>Catalytic groups</term><term>Central core</term><term>Chem</term><term>Commun</term><term>Copolymer</term><term>Core domain</term><term>Core environment</term><term>Dendrimers</term><term>Drug delivery</term><term>Facile synthesis</term><term>Functionality distribution</term><term>Gmbh</term><term>Gohy</term><term>Guest molecules</term><term>Hawker</term><term>Homoarm star</term><term>Homopolymer arms</term><term>Hydrophobic</term><term>Hyperbranched</term><term>Hyperbranched core</term><term>Individual arms</term><term>Inner block</term><term>Inner blocks</term><term>Inorganic nanoparticles</term><term>Kgaa</term><term>Macromol</term><term>Macromolecular</term><term>Macromolecule</term><term>Matyjaszewski</term><term>Meier</term><term>Metal nanoparticles</term><term>Methacrylate</term><term>Miktoarm</term><term>Miktoarm star</term><term>Miktoarm star polymers</term><term>Molecule</term><term>Multivalent effect</term><term>Nanomaterials</term><term>Nanoparticles</term><term>Notre dame</term><term>Outer shell</term><term>Poegma</term><term>Poegma core</term><term>Polydispersity</term><term>Polym</term><term>Polymer</term><term>Polymer carriers</term><term>Polymer catalysts</term><term>Polymerization techniques</term><term>Precursor</term><term>Rapid commun</term><term>Rapid communications development</term><term>Recent development</term><term>Small molecules</term><term>Spatial resolution</term><term>Star</term><term>Star block copolymers</term><term>Star core</term><term>Star molecule</term><term>Star polymer</term><term>Star polymers</term><term>Star structures</term><term>Star templates</term><term>Synthetic polymers</term><term>Tunable sizes</term><term>Unimolecular</term><term>Unimolecular container</term><term>Unimolecular containers</term><term>Verlag</term><term>Verlag gmbh</term><term>Weinheim</term><term>Wooley</term><term>Zhang</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Star polymers containing one central core surrounded by multiple radiating arms represent an intriguing type of globular platform to be used as unimolecular containers and reactors. The core domain can encapsulate guest “cargos”, whereas protective shell and chain ends can be functionalized with reactive groups and ligands. This Feature Article highlights the recent development on using core‐shell structured amphiphilic star polymers as unimolecular containers for applications in drug delivery, catalysis, and template of hybrid nanomaterials. As compared with dendrimers, star polymers enjoy advantages of facile synthesis, flexible compositions, and tunable sizes, which allow them being able to carry more and multiple “cargos” within one molecule.</div><div type="abstract" xml:lang="en">Star polymers enjoying the advantages of facile synthesis, flexible compositions, and tunable sizes are an important material to be used as unimolecular containers and reactors. This Feature Article highlights the recent development on synthesis and application of core‐shell structured star polymers for applications in drug delivery, catalysis, and templates for hybrid nanomaterials.</div></front></TEI><affiliations><list><country><li>États-Unis</li></country><region><li>Indiana</li></region></list><tree><country name="États-Unis"><region name="Indiana"><name sortKey="Gao, Haifeng" sort="Gao, Haifeng" uniqKey="Gao H" first="Haifeng" last="Gao">Haifeng Gao</name></region><name sortKey="Gao, Haifeng" sort="Gao, Haifeng" uniqKey="Gao H" first="Haifeng" last="Gao">Haifeng Gao</name><name sortKey="Gao, Haifeng" sort="Gao, Haifeng" uniqKey="Gao H" first="Haifeng" last="Gao">Haifeng Gao</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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