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Mechanism Material Work Density (kJ/m^3) Typical Strain (%) Average Strain Rate (%/s) Operating Stress (MPa) Power Density (kW/m^3) Source
CP Polyaniline 10 0.28 0 1.8 0.04 Use of Ionic Liquids for Pi-Conjugated Polymer Electrochemical Devices
W. Lu, A.G. Fadeev, B.H. Qi, E. Smela, B.R. Mattes, J. Ding, G.M. Spinks, J. Mazurkiewicz, D.Z. Zhou, G.G. Wallace, D.R. Macfarlane, S.A. Forsyth, M. Forsyth
CP Polyaniline 43 1.3 0.04 3.3 1.4 Polyaniline actuators: Part 1. PANI(AMPS) in HCl
E. Smela, W. Lu, B.R. Mattes
CP Polyaniline 49 1.5 0.01 3.3 0.33 Polyaniline actuators: Part 1. PANI(AMPS) in HCl
E. Smela, W. Lu, B.R. Mattes
CP Polyaniline 10 0.92 0.04 1.1 0.1 Polyaniline actuators: Part 1. PANI(AMPS) in HCl
E. Smela, W. Lu, B.R. Mattes
CP Polyaniline 29 0.84 0.03 3.4 0.29 Polyaniline actuators: Part 1. PANI(AMPS) in HCl
E. Smela, W. Lu, B.R. Mattes
CP Polyaniline 61 0.72 0.03 8.5 0.61 Polyaniline actuators: Part 1. PANI(AMPS) in HCl
E. Smela, W. Lu, B.R. Mattes
CP Polyaniline 104 0.61 0.02 17 1.03 Polyaniline actuators: Part 1. PANI(AMPS) in HCl
E. Smela, W. Lu, B.R. Mattes
CP Polyaniline 99 0.35 0.01 28.3 0.99 Polyaniline actuators: Part 1. PANI(AMPS) in HCl
E. Smela, W. Lu, B.R. Mattes