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German scientists make breathable high tech textiles

20 Feb '18
3 min read
Courtesy: Christian Wißler/University of Bayreuth/Steffen Reich M.Sc, doctoral student at the University of Bayreuth, producing a dispersion with tiny silver wires
Courtesy: Christian Wißler/University of Bayreuth/Steffen Reich M.Sc, doctoral student at the University of Bayreuth, producing a dispersion with tiny silver wires

Scientists at the University of Bayreuth, Donghua University in Shanghai, and Nanjing Forestry University have made nonwoven materials that are electrically conductive as well as flexible and breathable. This means comfortable high-tech clothes such as those converting sunlight to warmth or supplying wearable electronic devices with electricity are possible.

The scientists have published their findings in the journal npj Flexible Electronics.

Textile materials capable of conducting electricity can be awkward for day-to-day use. These are uncomfortable, rigid, with low air permeability.

Dr. Andreas Greiner's team of researchers at the University of Bayreuth and their Chinese partners have succeeded in producing electrically conductive nonwovens which have all the other characteristics one would expect from clothing that is suitable for daily use. The materials are flexible, and thus adapt to movements and changes in posture. In addition, they are air-permeable, meaning they do not interfere with the natural breathing of the skin.

The combination of these properties is based on a special production process. In contrast to common methods of production, metal wires were not inserted into finished textiles. Rather, the scientists modified classical electro-spinning, which has been used to produce nonwovens for many years: short electro-spun polymer fibres and small amounts of tiny silver wires with a diameter of only 80 nanometres are mixed in a liquid. Afterwards, they are filtered, dried, and briefly heated up. If the composition is right, the resulting nonwoven material exhibits a very high degree of electrical conductivity.

This opens up a whole range of possibilities for innovative applications, especially in the area of smart clothes (or wearables). Everyday clothing, for example, can be equipped with solar cells such that the captured sunlight is converted to warmth, heating up the textiles themselves. Mobile phones, cameras, mini-computers, and other wearable electronic devices could be charged by plugging them into the textiles. Sensors installed in the clothes could provide athletes and trainers with important fitness and health data or could give family and friends information on its location.

"In addition to articles of clothing, similar functions could also just as easily be installed in textile materials for use in seats and instruments in cars or airplanes," explained Greiner, chair of Macromolecular Chemistry II at the University of Bayreuth. "Our approach, which takes the production of conductive textiles as its basis, can in principle be applied to many different systems," added Steffen Reich, doctoral researcher and lead author of the new study. As an example, he cites current Bayreuth research projects on microbial fuel cells, which could eventually be used as electrodes in such nonwoven materials.

The research findings resulted from close cooperation between the University of Bayreuth, Donghua University in Shanghai, and Nanjing Forestry University. It was two years ago that the University of Bayreuth signed a cooperation agreement with Donghua University, which has had a research priority on the research and development of textiles since the establishment of the institution. (SV)

Fibre2Fashion News Desk – India

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