Silk fibres could pave way for “edible optics” in futureJuly 30th, 2010 - 3:20 pm ICT by ANI
Washington, July 30 (ANI): Silk, spun by spiders and silk worms, could some day find use in degradable and flexible electronic displays for sensors and implantable optical systems for diagnosis and treatment, according to scientists.
In the July 30, 2010, issue of the journal Science, Tufts biomedical engineering researchers Fiorenzo Omenetto, and David Kaplan, report that “Silk-based materials have been transformed in just the past decade from the commodity textile world to a growing web of applications in more high technology directions.”
Fundamental discoveries into how silk fibres are made have shown that chemistry, molecular biology and biophysics all play a role in the process. These discoveries have provided the basis for a new generation of applications for silk materials, from medical devices and drug delivery to electronics.
The Science paper notes that the development of silk hydrogels, films, fibres and sponges is making possible advances in photonics and optics, nanotechnology, electronics, adhesives and microfluidics, as well as engineering of bone and ligaments. Because silk fibre formation does not rely on complex or toxic chemistries, such materials are biologically and environmentally friendly, even able to integrate with living systems.
Progress in “edible optics” and implantable electronics has already been demonstrated by Kaplan and Omenetto, John Rogers at the University of Illinois at Urbana-Champaign, and others.
Many challenges remain. Kaplan and Omenetto say key questions include how to fully replicate native silk assembly in the lab, how best to mimic silk protein sequences via genetic engineering to scale-up materials production, and how to use silk as a model polymer to spur new synthetic polymer designs that mimic natural silk’s green chemistry.
Techniques for reprocessing natural silk protein in the lab continue to advance. Silks are also being cloned and expressed in a variety of hosts, including E. coli bacteria, fungi, plants and mammals, and through transgenic silkworms.
One day, efficient transgenic plants could be used to crop silk in much the same way that cotton is harvested today, the Tufts researchers note in their paper. In some regions, silk production might create a new microeconomy, as demand grows and production techniques improve.
Omenetto and Kaplan say: “Based on the recent and rapid progression of silk materials from the ancient textile use into a host of new high-technology applications, we anticipate growth in the use of silks in a wide platform of applications will continue as answers to these remaining questions are obtained.” (ANI)
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Tags: chemistry techniques, david kaplan, degradable, electronic displays, fundamental discoveries, green chemistry, john rogers, materials production, microfluidics, molecular biology, native silk, natural silk, protein sequences, science paper, silk protein, silk worms, synthetic polymer, technology directions, textile world, university of illinois at urbana champaign