Gas-phase deposited nanolayers guard organic microparticles in polymer matrices for active corrosion protection at damages

Jingjing Zhao*, J. Ruud van Ommen, Santiago J. Garcia

*Corresponding author for this work

Research output: Contribution to journalArticleScientificpeer-review

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The most common way to protect metallic structures from corrosion is through the use of passive and active corrosion protection with coatings containing dispersed corrosion inhibitor particles. Current approaches use inorganic microparticles containing mostly toxic and/or critical elements (e.g. CrVI, Li-salts). Organic inhibitors have been identified as a potential replacement technology due to their high inhibiting efficiency in solution, high versatility and lower toxicity. Nevertheless, when brought into organic coatings these inhibitors lose their efficiency due to unwanted side reactions with the surrounding organic matrix (coating). In this work we propose a novel strategy to isolate the organic corrosion inhibitor microparticles from the surrounding matrix. The new approach is based on the gas-deposition of an oxide nanolayer on the microparticles using gas deposition in a fluidized bed reactor. As a result, the organic particles are better dispersed in the coating and do not react with the surrounding matrix. Upon coating damage the particles are exposed to water and release sufficiently high amounts of the organic corrosion inhibitor at the damaged location. The work introduces a technique that can be used in other applications with similar challenges and a new technology that enables for the first time to store large amounts of active organic corrosion inhibitors in reactive organic coatings for efficient protection of metallic infrastructure. This opens the path to the practical use of highly efficient organic inhibitors in coatings for corrosion protection.

Original languageEnglish
Article number108522
Number of pages12
JournalProgress in Organic Coatings
Publication statusPublished - 2024


  • Atomic layer deposition
  • Chemical vapor deposition
  • Functional particles
  • Organic corrosion inhibitor
  • Self-healing


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