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Embroidery triboelectric nanogenerator

Hasan Riaz Tahir (UGent) , Sanaul Sujan, Benny Malengier (UGent) and Lieva Van Langenhove (UGent)
(2024) ENGINEERING PROCEEDINGS. In Engineering Proceedings 52(1).
Author
Organization
Abstract
The “Embroidery Triboelectric Nanogenerator” (E-TENG) is a wearable device that extracts energy from human motion by making use of the triboelectric phenomena, in addition to conductive fabric along with embroidery threads. One of the greatest ways to transform ambient vibrational energy from the human body is to use a wearable triboelectric energy harvester. In this study, different E-TENGs were developed using conductive fabric as an electrode and two different triboelectric yarns, 100% Polyester (electron donor) and Nylon 6,6 (electron receiver). To investigate the electrical outputs and energy-collecting potential of the ETENG, different stitch length and line spacing of embroidery TENG were investigated by testing samples in a specially manufactured tapping and sliding devices. The optimized wearable embroidery energy harvester effectively captured 72 μJ (12 V) of human motion energy in a 1 μF capacitor in 120 s and 307.5 μJ (24.8 V) of energy in a 1 μF capacitor by 1.5 Hz sliding motion in 300 s from an ETFS3.1 sample. A maximum of 4.5 μJ (3 V) was collected in a 1 μF capacitor from ETFS2.3 using a tapping machine for 520 s at a 2 Hz tapping motion and a 50 mm separation distance. The effects of the stitch length and line spacing in the embroidered structure on the electrical output performance of the embroidery energy-harvesting TENG were investigated.
Keywords
E-TENG (embroidery triboelectric nanogenerator), wearable energy harvesting, triboelectric effect, human kinetics, conductive substrate

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MLA
Tahir, Hasan Riaz, et al. “Embroidery Triboelectric Nanogenerator.” ENGINEERING PROCEEDINGS, vol. 52, no. 1, MDPI, 2024, doi:10.3390/engproc2023052007.
APA
Tahir, H. R., Sujan, S., Malengier, B., & Van Langenhove, L. (2024). Embroidery triboelectric nanogenerator. ENGINEERING PROCEEDINGS, 52(1). https://doi.org/10.3390/engproc2023052007
Chicago author-date
Tahir, Hasan Riaz, Sanaul Sujan, Benny Malengier, and Lieva Van Langenhove. 2024. “Embroidery Triboelectric Nanogenerator.” In ENGINEERING PROCEEDINGS. Vol. 52. Basel Switzerland: MDPI. https://doi.org/10.3390/engproc2023052007.
Chicago author-date (all authors)
Tahir, Hasan Riaz, Sanaul Sujan, Benny Malengier, and Lieva Van Langenhove. 2024. “Embroidery Triboelectric Nanogenerator.” In ENGINEERING PROCEEDINGS. Vol. 52. Basel Switzerland: MDPI. doi:10.3390/engproc2023052007.
Vancouver
1.
Tahir HR, Sujan S, Malengier B, Van Langenhove L. Embroidery triboelectric nanogenerator. In: ENGINEERING PROCEEDINGS. Basel Switzerland: MDPI; 2024.
IEEE
[1]
H. R. Tahir, S. Sujan, B. Malengier, and L. Van Langenhove, “Embroidery triboelectric nanogenerator,” in ENGINEERING PROCEEDINGS, Ghent, Belgium, 2024, vol. 52, no. 1.
@inproceedings{01HM6717V69F58GE2H2KJR8RNX,
  abstract     = {{The “Embroidery Triboelectric Nanogenerator” (E-TENG) is a wearable device that extracts energy from human motion by making use of the triboelectric phenomena, in addition to conductive fabric along with embroidery threads. One of the greatest ways to transform ambient vibrational energy from the human body is to use a wearable triboelectric energy harvester. In this study, different E-TENGs were developed using conductive fabric as an electrode and two different triboelectric yarns, 100% Polyester (electron donor) and Nylon 6,6 (electron receiver). To investigate the electrical outputs and energy-collecting potential of the ETENG, different stitch length and line spacing of embroidery TENG were investigated by testing samples in a specially manufactured tapping and sliding devices. The optimized wearable embroidery energy harvester effectively captured 72 μJ (12 V) of human motion energy in a 1 μF capacitor in 120 s and 307.5 μJ (24.8 V) of energy in a 1 μF capacitor by 1.5 Hz sliding motion in 300 s from an ETFS3.1 sample. A maximum of 4.5 μJ (3 V) was collected in a 1 μF capacitor from ETFS2.3 using a tapping machine for 520 s at a 2 Hz tapping motion and a 50 mm separation distance. The effects of the stitch length and line spacing in the embroidered structure on the electrical output performance of the embroidery energy-harvesting TENG were investigated.}},
  articleno    = {{7}},
  author       = {{Tahir, Hasan Riaz and Sujan, Sanaul and Malengier, Benny and Van Langenhove, Lieva}},
  booktitle    = {{ENGINEERING PROCEEDINGS}},
  issn         = {{2673-4591}},
  keywords     = {{E-TENG (embroidery triboelectric nanogenerator),wearable energy harvesting,triboelectric effect,human kinetics,conductive substrate}},
  language     = {{eng}},
  location     = {{Ghent, Belgium}},
  number       = {{1}},
  pages        = {{6}},
  publisher    = {{MDPI}},
  title        = {{Embroidery triboelectric nanogenerator}},
  url          = {{http://doi.org/10.3390/engproc2023052007}},
  volume       = {{52}},
  year         = {{2024}},
}
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