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W2213702783 endingPage "1296" @default.
W2213702783 startingPage "1289" @default.
W2213702783 abstract "Electroactive materials that change shape in response to electrical stimulation can serve as actuators. Electroactive actuators of this type have great utility in a variety of technologies, including biomimetic artificial muscles, robotics, and sensors. Electroactive actuators developed to date often suffer from problems associated with the need to use electrolytes, slow response times, high driving voltages, and short cycle lifetimes. Herein, we report an electrolyte-free, single component, polymer electroactive actuator, which has a fast response time, high durability, and requires a low driving voltage (<5 V). The process employed for production of this material involves wet-spinning of a preorganized camphorsulfonic acid (CSA)-doped polyaniline (PANI) gel, which generates long, flexible, and conductive (∼270 S/cm) microfibers. Reversible bending motions take place upon application of an alternating current (AC) to the PANI polymer. This motion, promoted by a significantly low driving voltage (<0.5 V) in the presence of an external magnetic field, has a very large swinging speed (9000 swings/min) that lies in the range of those of flies and bees (1000–15000 swings/min) and is fatigue-resistant (>1000000 cycles)." @default.
W2213702783 created "2016-06-24" @default.
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W2213702783 creator A5041219712 @default.
W2213702783 creator A5080439936 @default.
W2213702783 creator A5084858622 @default.
W2213702783 date "2016-01-07" @default.
W2213702783 modified "2023-10-11" @default.
W2213702783 title "An Electrolyte-Free Conducting Polymer Actuator that Displays Electrothermal Bending and Flapping Wing Motions under a Magnetic Field" @default.
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W2213702783 doi "https://doi.org/10.1021/acsami.5b09981" @default.
W2213702783 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26717199" @default.
W2213702783 hasPublicationYear "2016" @default.
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