DEVELOPMENT OF ELECTRONIC SKIN BASED ON BIDIRECTIONAL DIRECT CURRENT TRIBOELECTRIC NANOGENERATOR
Massoud, M., Ali, A., Al-Kabbany, A., Ali, W., El-Shazly, M. (2024). DEVELOPMENT OF ELECTRONIC SKIN BASED ON BIDIRECTIONAL DIRECT CURRENT TRIBOELECTRIC NANOGENERATOR. EKB Journal Management System, 21(1), 134-144. doi: 10.21608/jest.2024.338640
M. A. Massoud; A. S. Ali; A. M. Al-Kabbany; W. Y. Ali; M. H. El-Shazly. "DEVELOPMENT OF ELECTRONIC SKIN BASED ON BIDIRECTIONAL DIRECT CURRENT TRIBOELECTRIC NANOGENERATOR". EKB Journal Management System, 21, 1, 2024, 134-144. doi: 10.21608/jest.2024.338640
Massoud, M., Ali, A., Al-Kabbany, A., Ali, W., El-Shazly, M. (2024). 'DEVELOPMENT OF ELECTRONIC SKIN BASED ON BIDIRECTIONAL DIRECT CURRENT TRIBOELECTRIC NANOGENERATOR', EKB Journal Management System, 21(1), pp. 134-144. doi: 10.21608/jest.2024.338640
Massoud, M., Ali, A., Al-Kabbany, A., Ali, W., El-Shazly, M. DEVELOPMENT OF ELECTRONIC SKIN BASED ON BIDIRECTIONAL DIRECT CURRENT TRIBOELECTRIC NANOGENERATOR. EKB Journal Management System, 2024; 21(1): 134-144. doi: 10.21608/jest.2024.338640

DEVELOPMENT OF ELECTRONIC SKIN BASED ON BIDIRECTIONAL DIRECT CURRENT TRIBOELECTRIC NANOGENERATOR

Journal of the Egyptian Society of Tribology
Volume 21, Issue 1, January 2024, Page 134-144  XML PDF (544.93 K)
Document Type: Original Article
DOI: 10.21608/jest.2024.338640
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Authors
M. A. Massoud1; A. S. Ali2; A. M. Al-Kabbany3; W. Y. Ali3; M. H. El-Shazly4
1Biomedical Engineering Department, Faculty of Engineering, Minia University, P. N. 61111, El-Minia, EGYPT.
2Mechanical Engineering Dept., Faculty of Engineering, Suez Canal University, EGYPT.
3Production Engineering and Mechanical Design Department, Faculty of Engineering, Minia University, P. N. 61111, El-Minia, EGYPT.
4Department of Mechanical Design and Production Engineering, Faculty of Engineering, Cairo University, Giza, Egypt.
Abstract
The present paper studies the development of the design of electronic skin by introducing bidirectional direct current triboelectric nanogenerator (BDC-TENG) to work as self-powered sensor. The feedback signal generated from the BDC-TENG due to the sliding of polytetrafluoroethylene (PTFE) on polyamide (PA) is tested. It is aimed that BDC-TENG generates electric current from the sliding of PTFE on PA, where the polarity depends on the motion direction. The generated DC current works as feedback signal to control the sliding of the object surface on e-skin.
 
It was observed that the proposed DC-TENG generated bidirectional voltage of signal depends on the sliding direction. When the thickness of PU sponge substrate increased, voltage slightly increased due to the soft contact between PTFE and PA provided by PU foam layer that increased the contact area. Besides, as the load increased, voltage increased.  Copper electrodes displayed higher voltage than aluminium ones, where the voltage increased with increasing the width and length of the electrode due to the increase of the contact area of electrode that collects ESC from both the sliding surfaces. In addition, when PA was replaced by PMMA strings, voltage increased up to maximum then decreased with the increase of the electrode width, while voltage slightly increased as electrode length increased. The sliding of PTFE directly on the PU foam significantly increased the voltage. During sliding, DC-TENG generates direct current in two directions.
Keywords
Electronic skin; triboelectric nanogenerator; polyamide; polytetrafluoroethylene; polyurethane
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