IMPACT OF THE IONIC LIQUIDS ON THE BEHAVIOUR OF FLUORINATED POLYMER COMPOSITES
Smart materials, defined as materials with the ability to change their properties through the application of external physical stimuli and with high functionality in simplified structures, are gaining increasing interest to act as sensors and actuators. In this context, smart materials based on electroactive polymers have emerged as particularly attractive candidates and research in the area has been essentially focused on the development of actuators based on ionic electroactive polymer composites, allowing much larger deformations at a lower voltage than piezoelectric actuators. In particular, on the development of ionic liquid-based ionic electroactive polymers, obtained through the inclusion of ionic liquids (ILs) into the polymer matrix. ILs are salts, usually composed by an organic cation and an organic / inorganic anion. The idea here is to establish a correlation between the macroscopic properties of technological interest and the molecular mobility of ILs in these hybrid materials. We plan to follow the self-H-dynamics of the cations in two hybrid materials with different structure by the combination of IN16B (BATS) and IN5 instruments.
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MAIZ Jon; APPEL Markus; Arantxa Arbe; COLMENERO Juan; FARAGO Bela; OLLIVIER Jacques; PETRENKO Viktor; PORRO AZPIAZU Jose Maria and SHIBAEV Andrey. (2023). IMPACT OF THE IONIC LIQUIDS ON THE BEHAVIOUR OF FLUORINATED POLYMER COMPOSITES. Institut Laue-Langevin (ILL) doi:10.5291/ILL-DATA.9-11-2120
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