Nature Communications (Mar 2024)

Photo-modulated activation of organic bases enabling microencapsulation and on-demand reactivity

  • Wenle Li,
  • Xiaocun Lu,
  • Jacob M. Diamond,
  • Chengtian Shen,
  • Bo Jiang,
  • Shi Sun,
  • Jeffrey S. Moore,
  • Nancy R. Sottos

DOI
https://doi.org/10.1038/s41467-024-47175-x
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 9

Abstract

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Abstract A method is developed for facile encapsulation of reactive organic bases with potential application for autonomous damage detection and self-healing polymers. Highly reactive chemicals such as bases and acids are challenging to encapsulate by traditional oil-water emulsion techniques due to unfavorable physical and chemical interactions. In this work, reactivity of the bases is temporarily masked with photo-removable protecting groups, and the resulting inactive payloads are encapsulated via an in situ emulsion-templated interfacial polymerization method. The encapsulated payloads are then activated to restore the organic bases via photo irradiation, either before or after being released from the core-shell carriers. The efficacy of the photo-activated capsules is demonstrated by a damage-triggered, pH-induced color change in polymeric coatings and by recovery of adhesive strength of a damaged interface. Given the wide range of potential photo-deprotection chemistries, this encapsulation scheme provides a simple but powerful method for storage and targeted delivery of a broad variety of reactive chemicals, promoting design of diverse autonomous functionalities in polymeric materials.