Author
Listed:
- Sunbin Hwang
(Korea Institute of Science and Technology)
- Minji Kang
(Jeonbuk National University
Korea Research Institute of Chemical Technology)
- Aram Lee
(Korea Institute of Science and Technology)
- Sukang Bae
(Korea Institute of Science and Technology)
- Seoung-Ki Lee
(Pusan National University)
- Sang Hyun Lee
(Chonnam National University)
- Takhee Lee
(Seoul National University)
- Gunuk Wang
(Korea University)
- Tae-Wook Kim
(Jeonbuk National University)
Abstract
Electronic fibres have been considered one of the desired device platforms due to their dimensional compatibility with fabrics by weaving with yarns. However, a precise connecting process between each electronic fibre is essential to configure the desired electronic circuits or systems. Here, we present an integrated electronic fibre platform by fabricating electronic devices onto a one-dimensional microfibre substrate. Electronic components such as transistors, inverters, ring oscillators, and thermocouples are integrated together onto the outer surface of a fibre substrate with precise semiconductor and electrode patterns. Our results show that electronic components can be integrated on a single fibre with reliable operation. We evaluate the electronic properties of the chip on the fibre as a multifunctional electronic textile platform by testing their switching and data processing, as well as sensing or transducing units for detecting optical/thermal signals. The demonstration of the electronic fibre suggests significant proof of concepts for the realization of high performance with wearable electronic textile systems.
Suggested Citation
Sunbin Hwang & Minji Kang & Aram Lee & Sukang Bae & Seoung-Ki Lee & Sang Hyun Lee & Takhee Lee & Gunuk Wang & Tae-Wook Kim, 2022.
"Integration of multiple electronic components on a microfibre towards an emerging electronic textile platform,"
Nature Communications, Nature, vol. 13(1), pages 1-10, December.
Handle:
RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-30894-4
DOI: 10.1038/s41467-022-30894-4
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