09/5/1: Difference between revisions
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Gravimetric capacitance was calculated from cyclic voltammetry measurements. Cyclic voltammograms of actuator at different sweep rates between voltage range ±0.5 V and ±1 V. | Gravimetric capacitance was calculated from cyclic voltammetry measurements. Cyclic voltammograms of actuator at different sweep rates between voltage range ±0.5 V and ±1 V. | ||
[[Image:I,E at 0,5 V.jpg|centre|500px|frame|Cyclic voltammograms of actuator at sweep rates 100, 10 and 1 mV/s between voltage range ±0.5 V]] | |||
Dependence of the gravimetric capacitance of the actuator at different sweep rate values. | |||
[[Image:Gravimetric_Capacitance.jpg|centre|500 px]] |
Revision as of 15:36, 3 May 2009
Preparation of 3-layer actuators containing CNT-s, EMIBF4, PVDF-HFP
Preparation of actuator electrode layers:
- CNT(ID-PO356) 50.04 mg
- EMIBF4 (Aldrich) 124.5 mg
- PVDF-HFP (Kynar 2801) 50.1 mg
- DMAc ~(4 mL + 5 mL)
The electrode layer was fabricated by casting 1.6 ml of the electrolyte solution in the Teflon mold (an area of 2.5cm×2.5cm) and evaporating the solvent, perfectly. The thickness of the obtained electrode film was 50–60 μm.
Preparation of actuator electrode layers:
- EMIBF4 (Aldrich) 202 mg
- PVDF-HFP (Kynar 2801) 204,3 mg
- PC 497 mg
- MP 2 mL
The gel electrolyte layers were fabricated by casting 0.3 ml of the solution to the Tefon mold (an area of 2.5cm×2.5 cm) and evaporating the solvent perfectly. The thickness of the obtained gel electrolyte film was 15-18 μm. An actuator film was fabricated by hot-pressing the electrode and electrolyte layers which have the same internal IL. The thickness of the actuator film was 100-110 μm, which are smaller than the sum of those of two electrode and one electrolyte layers, since the thickness of each layer decreases by being hotpressed
Actuator performance analysis
Ionic conductivity κ of electrolyte layer was calculated from data obtained from electrochemical impedance spectroscopy (EIS) measurements. R value was determined from Nyquist`s plot.
[math]\kappa=\frac{d \left (cm\right )}{S \left (cm^2 \right ) \times R \left ( \Omega \right)}\, \qquad \left (1\right )[/math]
In formula (1) d is a thickness of the electolyte layer, S is an area of circular shaped elctrolyte layer film and R is a resistance of electrolyte film obtained from Z ′ Z ″ -plots
Results: [math]\kappa_{231 \ \mu m}=4.3 \ \mbox{mScm}^{-1} [/math] and [math]\kappa_{228 \ \mu m}=3.2 \ \mbox{mScm}^{-1} [/math]
Gravimetric capacitance was calculated from cyclic voltammetry measurements. Cyclic voltammograms of actuator at different sweep rates between voltage range ±0.5 V and ±1 V.
Dependence of the gravimetric capacitance of the actuator at different sweep rate values.