Electric field effect on charge-discharge characteristics of textile-based energy storage devices : in search of the underlying mechanism
- Author
- Ida Nuramdhani, Sheilla Atieno Odhiambo, Carla Hertleer (UGent) , Gilbert De Mey (UGent) and Lieva Van Langenhove (UGent)
- Organization
- Abstract
- The work focused on studying the eff ect of charging voltage level and the absence of electrode between the measured electrodes on the charge storage profi le. The device was applied on a three layered of 5 x 5 cm laminated textile fabric with hydrophobic surface. Stainless steel fi lament yarns were used as electrodes. As electrolyte, seven layers of the electro-active polymer PEDOT:PSS dispersion was consecutively drop-coated and dried under the temperature of 90–100 °C. During the course of the experiments, the devices were charged and discharged and their response or voltage decay was recorded. The results showed that the higher the charging voltage, the higher the amount of charges stored. The increase in the output voltage was not proportional to the input voltage which means that the device did not behave as either a pure capacitor or a pure battery. The ions movement was confi rmed to be involved in the charge-discharge mechanism of the device.
- Keywords
- textile capacitor, energy storage, smart textile, PEDOT:PSS
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Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-8027454
- MLA
- Nuramdhani, Ida, et al. “Electric Field Effect on Charge-Discharge Characteristics of Textile-Based Energy Storage Devices : In Search of the Underlying Mechanism.” TEKSTILEC, vol. 59, no. 2, 2016, pp. 162–67, doi:10.14502/Tekstilec2016.59.162-167.
- APA
- Nuramdhani, I., Odhiambo, S. A., Hertleer, C., De Mey, G., & Van Langenhove, L. (2016). Electric field effect on charge-discharge characteristics of textile-based energy storage devices : in search of the underlying mechanism. TEKSTILEC, 59(2), 162–167. https://doi.org/10.14502/Tekstilec2016.59.162-167
- Chicago author-date
- Nuramdhani, Ida, Sheilla Atieno Odhiambo, Carla Hertleer, Gilbert De Mey, and Lieva Van Langenhove. 2016. “Electric Field Effect on Charge-Discharge Characteristics of Textile-Based Energy Storage Devices : In Search of the Underlying Mechanism.” TEKSTILEC 59 (2): 162–67. https://doi.org/10.14502/Tekstilec2016.59.162-167.
- Chicago author-date (all authors)
- Nuramdhani, Ida, Sheilla Atieno Odhiambo, Carla Hertleer, Gilbert De Mey, and Lieva Van Langenhove. 2016. “Electric Field Effect on Charge-Discharge Characteristics of Textile-Based Energy Storage Devices : In Search of the Underlying Mechanism.” TEKSTILEC 59 (2): 162–167. doi:10.14502/Tekstilec2016.59.162-167.
- Vancouver
- 1.Nuramdhani I, Odhiambo SA, Hertleer C, De Mey G, Van Langenhove L. Electric field effect on charge-discharge characteristics of textile-based energy storage devices : in search of the underlying mechanism. TEKSTILEC. 2016;59(2):162–7.
- IEEE
- [1]I. Nuramdhani, S. A. Odhiambo, C. Hertleer, G. De Mey, and L. Van Langenhove, “Electric field effect on charge-discharge characteristics of textile-based energy storage devices : in search of the underlying mechanism,” TEKSTILEC, vol. 59, no. 2, pp. 162–167, 2016.
@article{8027454, abstract = {{The work focused on studying the eff ect of charging voltage level and the absence of electrode between the measured electrodes on the charge storage profi le. The device was applied on a three layered of 5 x 5 cm laminated textile fabric with hydrophobic surface. Stainless steel fi lament yarns were used as electrodes. As electrolyte, seven layers of the electro-active polymer PEDOT:PSS dispersion was consecutively drop-coated and dried under the temperature of 90–100 °C. During the course of the experiments, the devices were charged and discharged and their response or voltage decay was recorded. The results showed that the higher the charging voltage, the higher the amount of charges stored. The increase in the output voltage was not proportional to the input voltage which means that the device did not behave as either a pure capacitor or a pure battery. The ions movement was confi rmed to be involved in the charge-discharge mechanism of the device.}}, author = {{Nuramdhani, Ida and Odhiambo, Sheilla Atieno and Hertleer, Carla and De Mey, Gilbert and Van Langenhove, Lieva}}, issn = {{0351-3386}}, journal = {{TEKSTILEC}}, keywords = {{textile capacitor,energy storage,smart textile,PEDOT:PSS}}, language = {{eng}}, number = {{2}}, pages = {{162--167}}, title = {{Electric field effect on charge-discharge characteristics of textile-based energy storage devices : in search of the underlying mechanism}}, url = {{http://doi.org/10.14502/Tekstilec2016.59.162-167}}, volume = {{59}}, year = {{2016}}, }
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