Molecular recognition at the liquid–liquid interface of colloidal microcapsules

Patra, Debabrata; Pagliuca, Chiara; Subramani, Chandramouleeswaran; Samanta, Bappaditya; Agasti, Sarit S.; Zainalabdeen, Nada; Caldwell, Stuart T.; Cooke, Graeme; Rotello, Vincent M.

doi:10.1039/b906458c

Cited by 20 publications

(17 citation statements)

References 37 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Host-guest interactions at the interface were shown by monitoring fluorescence quenching of the flavin fluorophore upon addition of an excess of the guest diaminopyridine amphiphile. [170] 8. Conclusions…”

Section: Janus Structures and Interfacial Reactionsmentioning

confidence: 99%

“…[170] For example, orthogonally functionalized FePt nanoparticles were first self-assembled at the oil-water interface and cross-linked by dithiocarbamate chemistry, and a stable oil-in-water emulsion was obtained. Interfacial reactions were demonstrated by host-guest chemistry by encapsulation of a flavin polymer inside the microcapsules to obtain three-point hydrogen-bonding interaction at the interface with a complementary diaminopyridine amphiphile.…”

Section: Janus Structures and Interfacial Reactionsmentioning

confidence: 99%

See 1 more Smart Citation

Synthesis of Nano/Microstructures at Fluid Interfaces

et al. 2010

View full text Add to dashboard Cite

The generation of novel multifunctional materials with hierarchical ordering is a major focus of current materials science and engineering. For such endeavors, fluid interfaces, such as air-liquid and liquid-liquid interfaces, offer ideal platforms where nanoparticles or colloidal particles can accumulate and self-assemble. Different assembly processes and reactions have been performed at fluid interfaces to generate hierarchical structures, including two-dimensional crystalline films, colloidosomes, raspberry-like core-shell structures, and Janus particles, which lead to broad applications in drug delivery and controlled release, nanoelectronics, sensors, food supplements, and cosmetics.

show abstract

Section: Janus Structures and Interfacial Reactionsmentioning

confidence: 99%

Section: Janus Structures and Interfacial Reactionsmentioning

confidence: 99%

Synthesis of Nano/Microstructures at Fluid Interfaces

et al. 2010

View full text Add to dashboard Cite

show abstract

“…This mild crosslinking technique allowed MCs to act as scaffolds for "host-guest" recognition at the liquid-liquid interface. [23] Host-guest chemistry was demonstrated by encapsulation of the flavin polymer ("host") inside the microcapsules to obtain a three-point hydrogen bonding interaction at the interface with a complementary diaminopyridine (DAP, "guest") amphiphile (Figure 6 b). The interaction was then monitored by fluorescence quenching of the flavin fluorophore ( Figure 6 c-f).…”

Section: Covalent Interaction Between Npsmentioning

confidence: 99%

Colloidal Microcapsules: Self‐Assembly of Nanoparticles at the Liquid–Liquid Interface

Patra

Sanyal

Rotello

2010

Chemistry An Asian Journal

Self Cite

View full text Add to dashboard Cite

Colloidal microcapsules (MCs) are highly modular, inherently multiscale constructs of capsules stabilized by nano-/microparticle shells, with applications in many areas of materials and biological sciences, such as drug delivery, encapsulation, and microreactors. Until recently, fabrication of colloidal MCs focused on the use of submicron-sized particles because the smaller nanoparticles (NPs) are inherently unstable at the interface owing to thermal disorder. However, stable microcapsules can now be obtained by tuning the interactions between the nanometer-sized building blocks at the liquid-liquid interface. This Review highlights recent developments in the fabrication of colloidal MCs using NPs.

show abstract

“…Selbstorganisierte Monoschichten an Öl-Wasser-Grenzflächen können auch organische Reaktionen begünstigen. [170] Zum Beispiel wurden orthogonal funktionalisierte FePt-Nanopartikel zuerst an der Öl-Wasser-Grenzfläche selbstorganisiert und dann unter Verwendung von Dithiocarbamaten vernetzt, sodass eine stabile Öl-in-Wasser-Emulsion erhalten wurde. Der Nachweis von Grenzflächenreaktionen erfolgte dann mithilfe von Wirt-Gast-Chemie durch Verkapseln eines Flavinpolymers innerhalb von Mikrokapseln, um eine Wasserstoffbrücken-Dreipunktwechselwirkung an der Grenzfläche mit einem komplementären Diaminopyridin-Amphiphil zu erhalten.…”

Section: Angewandte Chemieunclassified

“…Wirt-Gast-Wechselwirkungen an der Grenzfläche wurden anhand der Fluoreszenzlöschung des Flavin-Fluorophors bei Zugabe eines Überschusses an Diaminopyridin-Amphiphil nachgewiesen. [170]…”

Section: Angewandte Chemieunclassified

Synthese von Nano‐/Mikrostrukturen an fluiden Grenzflächen

Niu

Russell

et al. 2010

Angewandte Chemie

View full text Add to dashboard Cite

Die Schaffung neuer multifunktionaler Materialien mit hierarchischer Ordnung ist ein Schwerpunkt der aktuellen Material‐ und Ingenieurswissenschaften. Ideale Ansatzpunkte für diese Bestrebungen sind Luft‐Flüssigkeit‐Grenzflächen und Grenzflächen zwischen zwei Flüssigkeiten, an denen sich Nanopartikel oder kolloidale Partikel akkumulieren und selbstorganisieren können. An solchen fluiden Grenzflächen wurden bereits verschiedenste Organisationsprozesse und Reaktionen durchgeführt, um hierarchische Strukturen wie zweidimensionale kristalline Filme, Kolloidosome, “Himbeer”‐ähnliche Kern‐Schale‐Strukturen oder Janus‐Partikel zu erzeugen. Diese Arbeiten führten zu zahlreichen Anwendungen beim Transport und bei der kontrollierten Freisetzung von Wirkstoffen, in der Nanoelektronik sowie für Sensoren, Nahrungsergänzungsmittel und Kosmetika.

show abstract

Molecular recognition at the liquid–liquid interface of colloidal microcapsules

Abstract: Dithiocarbamate chemistry is used as a crosslinking tool to fabricate FePt colloidal microcapsules which provide a versatile scaffold for "host-guest" recognition at the liquid-liquid interface.

Cited by 20 publications

References 37 publications

Synthesis of Nano/Microstructures at Fluid Interfaces

Synthesis of Nano/Microstructures at Fluid Interfaces

Colloidal Microcapsules: Self‐Assembly of Nanoparticles at the Liquid–Liquid Interface

Synthese von Nano‐/Mikrostrukturen an fluiden Grenzflächen

Contact Info

Product

Resources

About