Design Article
IMEC targets stretchable electronics for medical apps
Anne-Francoise Pele
9/18/2012 5:31 AM EDT
PARIS – Medical electronics applications are needed that dynamically adapt to curving and bending surfaces. Research consortium IMEC claims it has developed electronics circuitry that flexes and stretches like skin.
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Researchers at IMEC’s associated lab at the University of Ghent said they thinned a commercially available microcontroller down to 30 µm. The die was embedded in a slim polyimide package (40-50 µm thick). Then, the ultrathin chip was integrated with stretchable electrical wiring.
IMEC (Leuven, Belgium) said this was achieved by patterning polyimide-supported meandering horseshoe-shaped wires, a technology developed and optimized at the lab. The final step consisted in embedding the package in an elastomeric substrate, e.g. polydimethylsiloxane (PDMS). In this substrate, the conductors behave as two dimensional springs, enabling greater flexibility while preserving conductivity, researchers claimed.
“Future electronic circuitry will stretch and bend like rubber or skin while preserving its conductivity,” stated Jan Vanfleteren, responsible for the research on flexible and stretchable electronics at Imec’s Ghent lab. “This breakthrough achievement demonstrates that flexible Ultra-Thin Chip Packages (UTCP) can be integrated with stretchable wiring, paving the way toward fully flexible applications.
IMEC said it expects this achievement will be applied first in intelligent clothing. Medical applications will follow. Some examples include biomedical systems such as unobtrusive, wearable health monitors (e.g. electrocardiogram or temperature sensors), advanced surgical tools, or consumer electronics such as mobile phones embedded in smart textiles.
See related links:
DIY electrocardiograms for patients with heart disease
Imec, Panasonic R&D collaboration to include flexible electronics
PaperPhone prototype opens door to flexible, interactive computing
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[Get a 10% discount on ARM TechCon 2012 conference passes by using promo code EDIT. Click here to learn about the show and register.]
Researchers at IMEC’s associated lab at the University of Ghent said they thinned a commercially available microcontroller down to 30 µm. The die was embedded in a slim polyimide package (40-50 µm thick). Then, the ultrathin chip was integrated with stretchable electrical wiring.
IMEC (Leuven, Belgium) said this was achieved by patterning polyimide-supported meandering horseshoe-shaped wires, a technology developed and optimized at the lab. The final step consisted in embedding the package in an elastomeric substrate, e.g. polydimethylsiloxane (PDMS). In this substrate, the conductors behave as two dimensional springs, enabling greater flexibility while preserving conductivity, researchers claimed.
“Future electronic circuitry will stretch and bend like rubber or skin while preserving its conductivity,” stated Jan Vanfleteren, responsible for the research on flexible and stretchable electronics at Imec’s Ghent lab. “This breakthrough achievement demonstrates that flexible Ultra-Thin Chip Packages (UTCP) can be integrated with stretchable wiring, paving the way toward fully flexible applications.
IMEC said it expects this achievement will be applied first in intelligent clothing. Medical applications will follow. Some examples include biomedical systems such as unobtrusive, wearable health monitors (e.g. electrocardiogram or temperature sensors), advanced surgical tools, or consumer electronics such as mobile phones embedded in smart textiles.
See related links:
DIY electrocardiograms for patients with heart disease
Imec, Panasonic R&D collaboration to include flexible electronics
PaperPhone prototype opens door to flexible, interactive computing
------------------------
If you found this article to be of interest, visit Medical Designline where you will find the latest and greatest design, technology, product, and news articles with regard to all aspects of clean technologies. And, to register to our weekly newsletter, click here.
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KarlFredrik
9/19/2012 1:47 PM EDT
Fairly cool stuff. The meander shaped interconnects I have seen before. Thinned down and integrated microcontroller is new to me.
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I_B_GREEN
9/28/2012 1:12 PM EDT
how do the sretchable inteconnects keep constant conductance?
Is there conductance hystorisis when flexing?
Piezo effect with dieletric/insulators?
Turn probm on head piezo = source
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