Greatly Enhanced Accessibility and Reproducibility of Worm-like Micelles by In Situ Crosslinking Polymerization-Induced Self-Assembly

Worm-like micelles have attracted great interest due to their anisotropic structures. However, the experimental conditions for obtaining worm-like micelles are very restricted, which usually causes seriously poor reproducibility. In this work, significantly enhanced accessibility of worm-like micelles is realized by in situ crosslinking polymerization-induced self-assembly (PISA). The reproducibility of worm-like micelles is greatly improved due to the significantly enlarged experimental windows of worm-like micelles in the morphology diagram. Moreover, the reliability of the methodology to enhance the accessibility of worm-like micelles has been demonstrated in various in situ crosslinking PISA systems. The greatly enhanced accessibility and reproducibility of worm-like micelles is undoubtedly cost-effective especially in scale-up production, which paves the way for further application of worm-like micelles with various compositions and functionalities.

Automated summary

Significantly enhanced accessibility and reproducibility of worm-like micelles are achieved through in situ crosslinking polymerization-induced self-assembly (PISA), paving the way for further application of worm-like micelles with various compositions and functionalities.