Matheus Colovati Saccardo scite author profile

Ionomeric Polymer-Metal Composites (IPMC) are smart materials whose electromechanical behavior depends on the electrical stimulus intensity, membrane hydration level, and ionic migration. This paper investigates the effects of the voltage, relative humidity, and counterion type (Li + and K + ) on a Nafion-based IPMC performance. Instrumentation capable of applying an electrical stimulus and measuring the electromechanical response was developed. The ionic conductivity was obtained using Electrochemical Impedance Spectroscopy. Complementary SEM analyses were performed before and after actuation cycles. The IPMC performance improved when the electrical stimulus was 5.00 V, RH = 90%, and Li + was used. The IPMC-Li sample is an excellent candidate to be used as an actuator since it exhibited fast actuation movement, considerable displacement, and no evident back-relaxation. However, its mechanical performance decreased over time because of a progressive increase in platinum electrode crack density and dehydration. The video analysis technique is an efficient, effective, and low-cost technique.

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PEDOT:PSS post-treated by DMSO using spin coating, roll-to-roll and immersion: a comparative study

Vedovatte

Saccardo

Costa

et al. 2019

J Mater Sci: Mater Electron

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Matheus Colovati Saccardo

Counter-ion and humidity effects on electromechanical properties of Nafion®/Pt composites

Nafion-based ionomeric polymer/metal composites operating in the air: theoretical and electrochemical analysis

Electromechanical Evaluation of Ionomeric Polymer-Metal Composites Using Video Analysis

PEDOT:PSS post-treated by DMSO using spin coating, roll-to-roll and immersion: a comparative study

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