sg:pub.10.1038/s41598-018-38426-1 - Springer Nature SciGraph

Article Info

DATE

2019-12

AUTHORS

Min Ju Yun, Yeon Hyang Sim, Seung I. Cha, Seon Hee Seo, Dong Yoon Lee

ABSTRACT

The demand for easy-to-use portable electric devices that are combined with essential items in everyday life, such as apparel, has increased. Hence, significant research has been conducted into the development of wearable technology by fabrication of electronic devices with a textile structure based on fiber or fabric. However, the challenge to develop a fabrication method for wearable devices based on weaving or sewing technology still remains. In this study, we have proposed and fabricated a 3-D textile with two electrodes and one spacer in a single sheet of fabric, utilizing a commercial weaving machine. The two electrodes fulfil the role of electron transfer and the spacer between the electrodes circulates electrons and prevents electrical shorting. Hence, the 3-D textile could be applied to a wide range of electrochemical devices. In addition, it is possible to control the textile structure, size and quantity and change the electrode or spacer materials by replacing the thread. We applied the 3-D textile to dye-sensitized solar cells (DSSCs) which has distinctive advantages such as low manufacturing cost, esthetic appearance for interior or exterior application and high power output under relatively weak light illuminations. The 3-D textile DSSCs were fabricated through a continuous process, from manufacturing to encapsulation, using a non-volatile electrolyte and demonstrated a specific power of 1.7% (1 sun, 1.5 A.M.). The 3-D textile DSSCs were electrically connected in parallel and series by twisting, stainless steel wires, which were used as the weft, and a light-emitting diode lamp was turned on using 3-D textile DSSCs connected in series. This study represents the first stage in the development and application of wearable textile devices. More... »

PAGES

2322

References to SciGraph publications

2015-09. Insertion of Dye-Sensitized Solar Cells in Textiles using a Conventional Weaving Process in SCIENTIFIC REPORTS

2017-12. Highly Flexible and Efficient Fabric-Based Organic Light-Emitting Devices for Clothing-Shaped Wearable Displays in SCIENTIFIC REPORTS

2015-05. Highly Flexible Dye-sensitized Solar Cells Produced by Sewing Textile Electrodes on Cloth in SCIENTIFIC REPORTS

1991-10. A low-cost, high-efficiency solar cell based on dye-sensitized colloidal TiO2 films in NATURE

2017-12. Wearable woven supercapacitor fabrics with high energy density and load-bearing capability in SCIENTIFIC REPORTS

2015-04. A colour-tunable, weavable fibre-shaped polymer light-emitting electrochemical cell in NATURE PHOTONICS

2016-11-11. Wearable energy-smart ribbons for synchronous energy harvest and storage in NATURE COMMUNICATIONS

2016-12. Monolithic-Structured Single-Layered Textile-Based Dye-Sensitized Solar Cells in SCIENTIFIC REPORTS

Journal

TITLE

Scientific Reports

ISSUE

VOLUME

Subjects

FOR: Materials Engineering

FOR: Engineering

Author Affiliations

Korea Electrotechnology Research Institute

Korea University of Science and Technology

Identifiers

URI

http://scigraph.springernature.com/pub.10.1038/s41598-018-38426-1

DOI

http://dx.doi.org/10.1038/s41598-018-38426-1

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1112226046

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/30787333

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45	″	schema:description	The demand for easy-to-use portable electric devices that are combined with essential items in everyday life, such as apparel, has increased. Hence, significant research has been conducted into the development of wearable technology by fabrication of electronic devices with a textile structure based on fiber or fabric. However, the challenge to develop a fabrication method for wearable devices based on weaving or sewing technology still remains. In this study, we have proposed and fabricated a 3-D textile with two electrodes and one spacer in a single sheet of fabric, utilizing a commercial weaving machine. The two electrodes fulfil the role of electron transfer and the spacer between the electrodes circulates electrons and prevents electrical shorting. Hence, the 3-D textile could be applied to a wide range of electrochemical devices. In addition, it is possible to control the textile structure, size and quantity and change the electrode or spacer materials by replacing the thread. We applied the 3-D textile to dye-sensitized solar cells (DSSCs) which has distinctive advantages such as low manufacturing cost, esthetic appearance for interior or exterior application and high power output under relatively weak light illuminations. The 3-D textile DSSCs were fabricated through a continuous process, from manufacturing to encapsulation, using a non-volatile electrolyte and demonstrated a specific power of 1.7% (1 sun, 1.5 A.M.). The 3-D textile DSSCs were electrically connected in parallel and series by twisting, stainless steel wires, which were used as the weft, and a light-emitting diode lamp was turned on using 3-D textile DSSCs connected in series. This study represents the first stage in the development and application of wearable textile devices.
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