AI Article Synopsis
- The study addresses the challenge of encapsulating hydrophobic but non-lipophilic perfluoro liquids in liposomes or microcapsules, highlighting the difficulties presented by their chemical inertness and physical immiscibility.
- A novel method using a double emulsion template through solvent evaporation is proposed, allowing easy emulsification of perfluoro liquid droplets into a polymer solution while forming a stable shell during the evaporation process.
- The research includes a case study on perfluoro ketone, an eco-friendly fire extinguisher agent, which demonstrated effective thermal response and fire suppression capabilities, indicating promising practical applications for encapsulated perfluorinated chemicals.
Article Abstract
The facile encapsulation of perfluoro liquids that are hydrophobic but not lipophilic into liposomes or microcapsules presents a significant challenge in the fields of biomedicine, dynamic optics, functional chemical applications, etc. This is due to their chemical inertness and physical immiscibility, particularly those with low boiling points. In this study, a novel strategy based on a double emulsion template via solvent evaporation is proposed after investigating the mechanism of three-phase emulsion systems. The perfluoro liquid droplets can be easily emulsified into a polymer solution as the second emulsion layer, where the polymer shell is formed during solvent evaporation in the continuum medium under proper processing controls. The morphology of particles is predictable and fits well with the linear model derived from Neumann's triangle in three-phase systems. Furthermore, a comprehensive study on the encapsulation of perfluoro ketone, which is widely used as a green fire extinguisher agent, is conducted as an example. The encapsulated perfluoro ketone showed instant thermal response upon heating while maintaining a good shelf life at room temperature. The remarkable fire suppression performance exhibited great potential for practical applications. This work offers more insight into the encapsulation of "naughty" perfluorinated chemicals and provides more possibilities for extended applications.
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| http://dx.doi.org/10.1021/acsami.4c04926 | DOI Listing |
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