Dynamically Reconfigurable, Multifunctional Emulsions with Controllable Structure and Movement

Author(s)

Ku, Kang Hee; Li, Jie; Yoshinaga, Kosuke; Swager, Timothy M

Abstract

Dynamically reconfigurable oil-in-water (o/w) Pickering emulsions are developed, wherein the assembly of particles (i.e., platinum-on-carbon and iron-on-carbon particles) can be actively controlled by adjusting interfacial tensions. A balanced adsorption of particles and surfactants at the o/w interface allows for the creation of inhomogeneity of the particle distribution on the emulsion surface. Complex Pickering emulsions with highly controllable and reconfigurable morphologies are produced in a single step by exploiting the temperature-sensitive miscibility of hydrocarbon and fluorocarbon liquids. Dynamic adsorption/desorption of (polymer) surfactants afford both shape and configuration transitions of multiple Pickering emulsions and encapsulated core/shell structured can be transformed into a Janus configuration. Finally, to demonstrate the intrinsic catalytic or magnetic properties of the particles provided by carbon bound Pt and Fe nanoparticles, two different systems are investigated. Specifically, the creation of a bimetallic microcapsule with controlled payload release and precise modulation of translational and rotational motions of magnetic emulsions are demonstrated, suggesting potential applications for sensing and smart payload delivery.

Date issued

2019-10

URI

https://hdl.handle.net/1721.1/128132

Department

Massachusetts Institute of Technology. Department of Chemistry

Journal

Advanced Materials

Publisher

Wiley

Citation

Ku, Kang Hee et al. "Dynamically Reconfigurable, Multifunctional Emulsions with Controllable Structure and Movement." Advanced Materials 31, 51 (October 2019): 1905569 © 2019 Wiley

Version: Author's final manuscript

ISSN

0935-9648

1521-4095