Dynamical characterization of carbonaceous fillers in UV curable conductive composites
Nowadays, smart materials capable to respond to external stimulus are highly requested. Thus polymer-based composites giving rise to a variety of multifunctional responses. Behaviour and interactions of polymer and fillers during the various processing stages allows to enhance physico-chemical properties of composites. They are generally obtained from solvent-based processes, which can induce non-desirable environmental issues. Thus, UV-curable materials, that capable of suffering a process of rapid conversion from liquid solventless compositions to solid films upon UV-visible light irradiation, represent an interesting alternative. It was observed that structure and macroscopic properties of UV-curried nanocomposites depends on type/concentration of fillers and type of the matrix. The current proposal is directed towards exploring the dynamics of UV-curable polymer composite with carbonaceous fillers (conductive composites), a pivotal aspect that significantly influences the material's ultimate properties. It's crucial to delineate the relationship between the dynamics of the composite and their performance in electrical conductivity and its improvement for further application.
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The recommended format for citing this dataset in a research publication is in the following format:
MENDES Cristian; GOLUB Maksym; PETRENKO Viktor; PIEPER Joerg; Timur Tropin and ZBIRI Mohamed. (2024). Dynamical characterization of carbonaceous fillers in UV curable conductive composites. Institut Laue-Langevin (ILL) doi:10.5291/ILL-DATA.9-12-723
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