论文信息 - Suppression of electrochemical creep by cross-link in polypyrrole soft actuators

Suppression of electrochemical creep by cross-link in polypyrrole soft actuators

In soft actuators, the creep under tensile loads is a serious problem for the positioning. The creep during electrochemical cycle (electrochemical creep) in conducting polymers is remarkable compared with the static creep under tensile loads. Correlation between the electrochemical creep and the actuating strain in polypyrrole films doped with docecylbenzene sulfonic (DBS) anion has been studied in NaCl aqueous electrolyte. It has been found that chemical cross-link in polypyrrole with di-pyrrole alkanes suppressed the creep, however, the actuator strain also decreased. The creep in crossliked PPy saturated after several cycles, keeping the strain of actuation constant. The result indicates the creep can be minimized by idling before use. Scan rate dependences of the electrochemical creep and actuation were also examined to find the ways to depress the creep.

[1] Elisabeth Smela,et al. Polyaniline actuators: Part 1. PANI(AMPS) in HCl , 2005 .

[2] R. Baughman. Conducting polymer artificial muscles , 1996 .

[3] W. Takashima,et al. Artificial Muscles Based on Polypyrrole Actuators with Large Strain and Stress Induced Electrically , 2004 .

[4] S. Pandey,et al. Cyclic Step-voltammetric Analysis of Cation-driven and Anion-driven Actuation in Polypyrrole Films , 2002 .

[5] Mikkel Jørgensen,et al. Polypyrrole doped with alkyl benzenesulfonates , 2002 .

[6] Ian W. Hunter,et al. Creep and cycle life in polypyrrole actuators , 2007 .

[7] W. Takashima,et al. Stability of electrochemomechanical strains in polypyrrole films using ionic liquids , 2009 .

[8] K. Kaneto,et al. Anisotropic Strain and Memory Effect in Electrochemomechanical Strain of Polypyrrole Films under High Tensile Stresses , 2009 .

[9] W. Takashima,et al. Characteristics of soft actuators based on polypyrrole films , 2001 .

[10] G. Bidan,et al. Electrochemical study by a redox probe of the chemical post-functionalization of N-substituted polypyrrole films: Application of a new approach to immobilization of biotinylated molecules , 2005 .