2021
DOI: 10.3390/polym13040644
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A Multi-Scale Approach to Microencapsulation by Interfacial Polymerization

Abstract: This work applies a multi-scale approach to the microencapsulation by interfacial polymerization. Such microencapsulation is used to produce fertilizers, pesticides and drugs. In this study, variations at three different scales (molecular, microscopic and macroscopic) of product design (i.e., product variables, process variables and properties) are considered simultaneously. We quantify the effect of the formulation, composition and pH change on the microcapsules’ properties. Additionally, the method of measur… Show more

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Cited by 14 publications
(13 citation statements)
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“…Despite consistent stirring speed and time being applied to all A/G ratios during the encapsulation, the actual effects achieved by each process are plausibly different. In particular, it was due to the different viscosity of the mixture, caused by the disproportional ratio of the shells [42,43] …”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…Despite consistent stirring speed and time being applied to all A/G ratios during the encapsulation, the actual effects achieved by each process are plausibly different. In particular, it was due to the different viscosity of the mixture, caused by the disproportional ratio of the shells [42,43] …”
Section: Resultsmentioning
confidence: 99%
“…In particular, it was due to the different viscosity of the mixture, caused by the disproportional ratio of the shells. [42,43] To investigate the linearity of good morphology of the optimized LOs microcapsules with their performance to release LOs from the shells, time-dependent of LOs release experiments from the microcapsules were conducted against mechanical and chemical interferences (Figure 6). The shells created from A/G of 1 : 3.75 persistently showed remarkable properties, releasing 65 % of LOs in 120 minutes.…”
Section: Chemistryselectmentioning
confidence: 99%
“…More information can be found in comprehensive reviews focusing on this technique. [53][54][55] Fig. 3(b) shows a specific example of a natural and hydrophobic biocide (clove oil) being encapsulated in polyurethane (PU) microcapsules using this technique.…”
Section: Interfacial Polymerizationmentioning
confidence: 99%
“…Third, to the extreme of steric hindrance when forming an integral solid shell at the interface, such a specific structure of the dispersed phase can also be considered as the microcapsule. It is worth noting that most of the microcapsules produced by interfacial polymerization are based on emulsion templates, wherein the polymerization processes are time-consuming and interface-active agents are essentially needed. Specifically, cyanoacrylate-based capsules can be produced via radical polymerization and anion polymerization in a heterogeneous system, with the use of various interface-active agents ( e.g. , Tween 80, Span 20, and dodecyltrimethylammonium chloride). ,, However, the interface-active agents are usually superfluous or even destructive as they change the surface wettability of the microcapsules and present risks to the environment and health. , With rare time cost and no additive interface-active agents, the microcapsule can be readily prepared during the self-stabilizing encapsulation process via the FIP method.…”
Section: Introductionmentioning
confidence: 99%