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Huge potential for electronic textiles made with new cellulose thread

Date:
March 10, 2021
Source:
Chalmers University of Technology
Summary:
Electronic textiles offer revolutionary new opportunities in various fields, in particular healthcare. But to be sustainable, they need to be made of renewable materials. A research team now presents a thread made of conductive cellulose, which offers fascinating and practical possibilities for electronic textiles.
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Electronic textiles offer revolutionary new opportunities in various fields, in particular healthcare. But to be sustainable, they need to be made of renewable materials. A research team led by Chalmers University of Technology, Sweden, now presents a thread made of conductive cellulose, which offers fascinating and practical possibilities for electronic textiles.

"Miniature, wearable, electronic gadgets are ever more common in our daily lives. But currently, they are often dependent on rare, or in some cases toxic, materials. They are also leading to a gradual build-up of great mountains of electronic waste. There is a real need for organic, renewable materials for use in electronic textiles," says Sozan Darabi, doctoral student at the Department of Chemistry and Chemical Engineering at Chalmers University of Technology and the Wallenberg Wood Science Center, and lead author of the scientific article which was recently published in ASC Applied Materials & Interfaces.

Together with Anja Lund, researcher in the same group, Sozan Darabi has been working with electrically conductive fibres for electronic textiles for several years. The focus was previously on silk, but now the discoveries have been taken further through the use of cellulose.

The results now presented by the researchers show how cellulose thread offers huge potential as a material for electronic textiles and can be used in many different ways.

Sewing the electrically conductive cellulose threads into a fabric using a standard household sewing machine, the researchers have now succeeded in producing a thermoelectric textile that produces a small amount of electricity when it is heated on one side -- for example, by a person's body heat. At a temperature difference of 37 degrees Celsius, the textile can generate around 0.2 microwatts of electricity.

"This cellulose thread could lead to garments with built-in electronic, smart functions, made from non-toxic, renewable and natural materials," says Sozan Darabi.

The production process for the cellulose thread has been developed by co-authors from Aalto University in Finland. In a subsequent process, the Chalmers researchers made the thread conductive through dyeing it with an electrically conductive polymeric material. The researchers' measurements show that the dyeing process gives the cellulose thread a record-high conductivity -- which can be increased even further through the addition of silver nanowires. In tests, the conductivity was maintained after several washes.

Electronic textiles could improve our lives in several ways. One important area is healthcare, where functions such as regulating, monitoring, and measuring various health metrics could be hugely beneficial.

In the wider textile industry, where conversion to sustainable raw materials is a vital ongoing question, natural materials and fibres have become an increasingly common choice to replace synthetics. Electrically conductive cellulose threads could have a significant role to play here too, the researchers say.

"Cellulose is a fantastic material that can be sustainably extracted and recycled, and we will see it used more and more in the future. And when products are made of uniform material, or as few materials as possible, the recycling process becomes much easier and more effective. This is another perspective from which cellulose thread is very promising for the development of e-textiles," says Christian Müller, research leader for the study and a professor at the Department of Chemistry and Chemical Engineering at Chalmers University of Technology.

This work of the research team from Chalmers is performed within the national research center Wallenberg Wood Science Center, in cooperation with colleagues in Sweden, Finland and South Korea.

More about: Developing expertise in conductive fibres

Both Sozan Darabi and Christian Müller believe the research has resulted in much more than just the latest scientific publication. Sozan Darabi has developed from a student into a foremost expert in electrically conductive fibre materials, something Christian Müller views as very rewarding, and a great strength for their research team.

Through the national Swedish research center Wallenberg Wood Science Center, a group from Stockholm's Royal Institute of Technology (KTH) has also been involved in the research and publication of the study. The KTH researchers focus on the electrochemical aspects of the fibres. Together with this group from KTH, the Chalmers research team is now planning ways to take the ideas to the next level.


Story Source:

Materials provided by Chalmers University of Technology. Note: Content may be edited for style and length.


Journal Reference:

  1. Sozan Darabi, Michael Hummel, Sami Rantasalo, Marja Rissanen, Ingrid Öberg Månsson, Haike Hilke, Byungil Hwang, Mikael Skrifvars, Mahiar M. Hamedi, Herbert Sixta, Anja Lund, Christian Müller. Green Conducting Cellulose Yarns for Machine-Sewn Electronic Textiles. ACS Applied Materials & Interfaces, 2020; 12 (50): 56403 DOI: 10.1021/acsami.0c15399

Cite This Page:

Chalmers University of Technology. "Huge potential for electronic textiles made with new cellulose thread." ScienceDaily. ScienceDaily, 10 March 2021. <www.sciencedaily.com/releases/2021/03/210310084705.htm>.
Chalmers University of Technology. (2021, March 10). Huge potential for electronic textiles made with new cellulose thread. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2021/03/210310084705.htm
Chalmers University of Technology. "Huge potential for electronic textiles made with new cellulose thread." ScienceDaily. www.sciencedaily.com/releases/2021/03/210310084705.htm (accessed December 21, 2024).

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