Studying the percolation of soft and rigid latex nanoparticles during annealing
Today, nearly every product is covered by functional coatings ranging from stability enhancers via protective coatings to colloidal sensor coatings. Ideally, such coatings are as thin as possible while maintaining their full functionality and stability. The use of latex nanoparticles (NP) in colloidal coatings is very interesting due to their easy water-processability and wide industrial application range, already in dispersive paints and adhesives. Latexes are dispersed stable colloidal polymeric particles in water phase, commonly synthesized by emulsion polymerization techniques. Block copolymer latexes fabricated via polymerization-induced self-assembly (PISA) form core-shell particles with tailored corona properties to interact with specific surfaces such as cellulose or silica. Since the properties of colloidal coatings are given by the nanostructure and morphology of the film and its surface, understanding the film formation, self-assembly and temperature stability of latex coatings systems is of great industrial and research interest.
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The recommended format for citing this dataset in a research publication is in the following format:
Calvin J. Brett; ALEXAKIS Alexandros; Chumakov A.; ENGSTRAM Joakim; MALMSTROM JONSSON Eva; Stephan V. Roth and VOROBIEV Alexei. (2020). Studying the percolation of soft and rigid latex nanoparticles during annealing. Institut Laue-Langevin (ILL) doi:10.5291/ILL-DATA.CRG-2649
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