Smart textiles challenges

Cherenack, K., van Pieterson, L., 2012. Smart textiles challenges and opportunities. Journal of Apphed Physics 112 (9), 091301. 

It is always challenging and risky to predict the future. Nevertheless, smart textiles will probably develop in two different and parallel ways. 

Current challenges and future prospects for smart textile implantable devices... 

Smart textiles - when colloid chemistry bears a challenge... 

The textile industry still constitutes one of Europe s most relevant industrial sectors for both the economy and society. The very latest trend in textile and linked industries is to create miscellaneous new products which possess the potential of interacting with the surrounding environment through active feedback. This class of new interactive material is termed intelligent textile structures or smart textiles. In order to make interactive fabrics available at the industrial level it is necessary to apply a multidisciplinary approach. The route to develop and optimise multifunctional material involves in the same way textile engineering and colloid chemistry. The complexity of the production process for modern composite materials is a real challenge to textile engineering but the fundamentals of interfacial and colloid science are indispensable to characterise and control the... 

As noted in Section 2.2.1, ICP yams, though featuring excellent electrical conductivity, usually suffer from poor mechanical strength. Therefore, fabricaticMi of smart textiles or fabrics from these ICP yams could be challenging. Coating traditional... 

Lymheris, A., Paradiso, R., 2008. Smart fabrics and interactive textile enabling wearable personal apphcations R and D state of the art and future challenges. In Proceedings of the 30th International Conference of IEEE Engineering in Medicine and Biology Society, Vancouver, BC. 

Stretchability has been perceived as a useful characteristic of next-generation electronics. Unlike conventional devices, stretchable electronics can adapt arbitrary and movable surfaces, thus extending their applications in smart-phones and wearable electronic textiles (Kim et al, 2010 Yu et al., 2011a). The largest challenge of stretchable PLECs resides in transparent electrode that requires to be highly conductive and stretchable. ITO is a... 

Silver particles can also be used to create conductive inks, which are then printed onto textile substrate. They were initially developed for smart cards and printed circuit boards but have found a lot of application in the flexible circuitry field. Some major challenges remain (Meoli and May-Plumlee, 2002) before conductive inks can be applied in a production environment since the ink viscosity (Perelaer et al., 2010)... 

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