Stimuli‐Responsive Particle‐Based Amphiphiles as Active Colloids Prepared by Anisotropic Click Chemistry †
Abstract: Amphiphiles alter the energy of surfaces, but the extent of this feature is typically constant. Smart systems with amphiphilicity as a function of an external, physical trigger are desirable. As a trigger, the exposure to a magnetic field, in particular, is attractive because it is not shielded in water. Amphiphiles like surfactants are well known, but the magnetic response of molecules is typically weak. Vice‐versa, magnetic particles with strong response to magnetic triggers are fully established in nanoscience, but they are not amphiphilic. In this work colloids with Janus architecture and ultra‐small dimensions (25 nm) have been prepared by spatial control over the thiol‐yne click modification of organosilica‐magnetite core–shell nanoparticles. The amphiphilic properties of these anisotropically modified particles are proven. Finally, a pronounced and reversible change in interfacial stabilization results from the application of a weak (<1 T) magnetic field.
- Location
-
Deutsche Nationalbibliothek Frankfurt am Main
- Extent
-
Online-Ressource
- Language
-
Englisch
- Bibliographic citation
-
Stimuli‐Responsive Particle‐Based Amphiphiles as Active Colloids Prepared by Anisotropic Click Chemistry † ; volume:132 ; number:23 ; year:2020 ; pages:8987-8991 ; extent:5
Angewandte Chemie ; 132, Heft 23 (2020), 8987-8991 (gesamt 5)
- Creator
- DOI
-
10.1002/ange.202001423
- URN
-
urn:nbn:de:101:1-2022053107062580182545
- Rights
-
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
-
15.08.2025, 7:36 AM CEST
Data provider
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- Lanz, Cornelia
- Schlötter, Moritz
- Klinkenberg, Nele
- Besirske, Patricia
- Polarz, Sebastian
Other Objects (12)
Stimuli-Responsive Particle-Based Amphiphiles as Active Colloids Prepared by Anisotropic Click Chemistry
Stimuli-Responsive Particle-Based Amphiphiles as Active Colloids Prepared by Anisotropic Click Chemistry
Stimuli‐Responsive Particle‐Based Amphiphiles as Active Colloids Prepared by Anisotropic Click Chemistry †
Host‐Guest Stimuli‐Responsive Click Chemistry
Multifunctional stimuli-responsive hybrid colloids : synthesis and applications
Stimuli-responsive self-regulating assembly of chiral colloids for robust size and shape control
Particle-based animation
Amphiphiles at interfaces
Particle-based Flow Visualization
Stimuliresponsive Polyaspartate
Imposters for particle-based datasets
Klack klack : = Click click
Stimuli-Responsive Particle-Based Amphiphiles as Active Colloids Prepared by Anisotropic Click Chemistry
Stimuli-Responsive Particle-Based Amphiphiles as Active Colloids Prepared by Anisotropic Click Chemistry
Stimuli‐Responsive Particle‐Based Amphiphiles as Active Colloids Prepared by Anisotropic Click Chemistry †
Host‐Guest Stimuli‐Responsive Click Chemistry
Multifunctional stimuli-responsive hybrid colloids : synthesis and applications
Stimuli-responsive self-regulating assembly of chiral colloids for robust size and shape control
Particle-based animation
Amphiphiles at interfaces
Particle-based Flow Visualization
Stimuliresponsive Polyaspartate
Imposters for particle-based datasets
Klack klack : = Click click
Stimuli-Responsive Particle-Based Amphiphiles as Active Colloids Prepared by Anisotropic Click Chemistry
Stimuli-Responsive Particle-Based Amphiphiles as Active Colloids Prepared by Anisotropic Click Chemistry
Stimuli‐Responsive Particle‐Based Amphiphiles as Active Colloids Prepared by Anisotropic Click Chemistry †
Host‐Guest Stimuli‐Responsive Click Chemistry
Multifunctional stimuli-responsive hybrid colloids : synthesis and applications
Stimuli-responsive self-regulating assembly of chiral colloids for robust size and shape control
Particle-based animation
Amphiphiles at interfaces
Particle-based Flow Visualization
Stimuliresponsive Polyaspartate
Imposters for particle-based datasets