Daria V. Andreeva

TL;DR: An anticorrosion layer of a smart polymer coating is developed that provides three mechanisms of corrosion protection: passivation of the metal degradation by controlled release of an inhibitor, buffering of pH changes at the corrosive area by polyelectrolyte layers, and self-curing of the film defects due to the mobility of the polyelectROlyte constituents in the layer-by-layer assembly.

TL;DR: In this article, halloysite nanotubes filled with anticorrosive agents are embedded into a SiOx-ZrOx hybrid film for loading and sustained release of corrosion inhibitors.

TL;DR: In this article, a mesoporous silica nano-particles are covered layer-by-layer with polyelectrolyte layers and loaded with inhibitor [2-(benzothiazol-2-ylsulfanyl)-succinic acid.

TL;DR: There remains a clear unmet need for coordinating the actions and efforts from scientists, engineers, manufacturers, suppliers, and regulatory bodies to develop and produce safe and effective protective clothing using the technologies that are locally available around the world.

TL;DR: In this article, the authors demonstrate a method of corrosion protection based on formation and deposition of polyelectrolyte multilayers on aluminum and steel alloys, analysis of different polyelectrotein compositions (strong−strong, strong−weak, weak−weak) as candidates for corrosion protective layers.