Reversible aggregation of responsive polymer-stabilized colloids and the pH-dependent formation of porous scaffolds

Robert T. Woodward; Christopher Hight; Ufuk Yildiz; Nicolas Schaeffer; Esther M. Valliant; Julian R. Jones; Molly M. Stevens; Jonathan V.M. Weaver

doi:10.1039/c1sm05769c

Reversible aggregation of responsive polymer-stabilized colloids and the pH-dependent formation of porous scaffolds

Robert T. Woodward, Christopher Hight, Ufuk Yildiz, Nicolas Schaeffer, Esther M. Valliant, Julian R. Jones, Molly M. Stevens, Jonathan V.M. Weaver

Résultat de recherche: Article › examen par les pairs

13 Citations (Scopus)

Résumé

Branched copolymer stabilized emulsion droplets can be used as templates for the production of surface-functionalized colloidal particles. The pre-defined pH-responsive surface functionality can control the solution behavior of these colloids - from highly disperse to aggregated. The colloids can co-encapsulate various hydrophobic molecules and can be assembled into large site-isolated 3D aggregates with internal macroporosities dictated by the method of dehydration employed. The assembled colloids can be rehydrated and remain stable in acidic water but disassemble back into disperse colloids on raising the solution pH. Thus these functional colloids have potential application as building blocks for the preparation of modular scaffold materials

Langue d'origine	English
Pages (de-à)	7560-7566
Nombre de pages	7
Journal	Soft Matter
Volume	7
Numéro de publication	16
DOI	https://doi.org/10.1039/c1sm05769c
Statut de publication	Published - août 21 2011
Publié à l'externe	Oui

ASJC Scopus Subject Areas

General Chemistry
Condensed Matter Physics

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10.1039/c1sm05769c

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title = "Reversible aggregation of responsive polymer-stabilized colloids and the pH-dependent formation of porous scaffolds",

abstract = "Branched copolymer stabilized emulsion droplets can be used as templates for the production of surface-functionalized colloidal particles. The pre-defined pH-responsive surface functionality can control the solution behavior of these colloids - from highly disperse to aggregated. The colloids can co-encapsulate various hydrophobic molecules and can be assembled into large site-isolated 3D aggregates with internal macroporosities dictated by the method of dehydration employed. The assembled colloids can be rehydrated and remain stable in acidic water but disassemble back into disperse colloids on raising the solution pH. Thus these functional colloids have potential application as building blocks for the preparation of modular scaffold materials",

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AU - Woodward, Robert T.

AU - Hight, Christopher

AU - Yildiz, Ufuk

AU - Schaeffer, Nicolas

AU - Valliant, Esther M.

AU - Jones, Julian R.

AU - Stevens, Molly M.

AU - Weaver, Jonathan V.M.

PY - 2011/8/21

Y1 - 2011/8/21

N2 - Branched copolymer stabilized emulsion droplets can be used as templates for the production of surface-functionalized colloidal particles. The pre-defined pH-responsive surface functionality can control the solution behavior of these colloids - from highly disperse to aggregated. The colloids can co-encapsulate various hydrophobic molecules and can be assembled into large site-isolated 3D aggregates with internal macroporosities dictated by the method of dehydration employed. The assembled colloids can be rehydrated and remain stable in acidic water but disassemble back into disperse colloids on raising the solution pH. Thus these functional colloids have potential application as building blocks for the preparation of modular scaffold materials

AB - Branched copolymer stabilized emulsion droplets can be used as templates for the production of surface-functionalized colloidal particles. The pre-defined pH-responsive surface functionality can control the solution behavior of these colloids - from highly disperse to aggregated. The colloids can co-encapsulate various hydrophobic molecules and can be assembled into large site-isolated 3D aggregates with internal macroporosities dictated by the method of dehydration employed. The assembled colloids can be rehydrated and remain stable in acidic water but disassemble back into disperse colloids on raising the solution pH. Thus these functional colloids have potential application as building blocks for the preparation of modular scaffold materials

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Reversible aggregation of responsive polymer-stabilized colloids and the pH-dependent formation of porous scaffolds

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