Abatement of high-voltage leakage current in electrostrictive fluorinated polymers through electro-annealing

摘要

Electro-active polymers (EAPs) such as P(VDF-TrFE-CTFE) was demonstrated to be greatly promising in the field offlexible sensors and actuators[1]. The advantages of using EAPs for smart electrical devices are due to their low cost,elastic properties, low density and ability to be manufactured into various shapes and thicknesses. In earlier years,terpolymer P(VDF-TrFE-CTFE), attracted many researchers due to its relaxor-ferroelectric property that exhibits highelectrostriction phenomena[2]. Although their attractiveness, this class of materials still owns the main technologicalconstrain of high electric fields required for their actuation (≥ 30 V/μm, about), which inevitably leads to high level ofleakage current and thus short life-time[3]. This paper will demonstrate that an alternative approach is possible. Workingon the pure terpolymer P(VDF-TrFE-CTFE) matrix, dedicated electro-thermal treatments are introduced in the filmfabrication process in order to limit the conduction mechanisms at high electric fields. Reduction in high-voltage leakagecurrent of 80% are achieved for a wide range of actuation electric fields (up to 90 V/μm), and a 4-fold extension in timeto-breakdown are measured for actuation electric field of 40 V/μm.