AMSilk and Fraunhofer Institute for Applied Polymer Research Join in the Development of New Spin Process for Spider Silk

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Wednesday, 07 September 2011 09:00 (UTC + 2)

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Munich / Potsdam, Germany, September 7, 2011 / B3C newswire / - AMSilk and the Fraunhofer Institute for Applied Polymer Research (IAP) join forces in the current development of a novel spin process for making high performance fibers from AMSilk’s spider silk proteins. AMSilk is the first company able to deliver sufficient spider silk material for applications development. AMSilk’s spider silk is inspired by the natural silk from spiders and produced through biotechnology with an industrial production platform. To date, no industrial spinning process has delivered a fiber that can be compared to natural spider silk as found in a spider web. The present collaboration will match AMSilk’s material and biochemical expertise with Fraunhofer’s expertise in developing spin processes for biopolymers. The partners expect to deliver a new process for making artificial spider silk fibers for high tech applications.

“Having Fraunhofer-Gesellschaft, one of the world’s most renowned research institutions, as our partner in this exciting project, is a great advantage for AMSilk,” says Axel Leimer, AMSilk CEO. “We fit perfectly together, both in expertise and vision.”

“We are very proud to be involved in the development of a new generation of high performance protein fibers. In a unique way we will combine synthetic spider silk from AMSilk and biopolymer spinning technology from Fraunhofer IAP”, says Prof. Dr. Hans-Peter Fink, the director of Fraunhofer IAP.

The development collaboration will run over at least two years. AMSilk will own commercial rights of the results with certain benefits for Fraunhofer IAP.


About AMSilk
Spider silk has attracted human interest for thousands of years, mainly due to its toughness and ductility. The material is also biocompatible and can be used in formulations for specialized coatings, films, nonwovens and in pharmaceuticals. As with most biomaterials, spider silk has evolved over millions of years resulting in a combination of properties that far exceeds any man-made material. Until recently, it was not possible to utilize this high-performance material for technical applications, because no process was known to produce enough spider silk.
AMSilk is the first company to produce Spidersilk biopolymers, inspired by the proteins of web-weaving spiders on an industrial scale. This makes possible a completely new set of technical products as well as major improvements for already existing products.
AMSilk, a spin-off from the Technische Universität München, was founded in 2008 and is located in the IZB in Martinsried near Munich. AMSilk’s investors are MIG Funds and AT Newtec, Munich.
For more information visit our website at www.amsilk.com.

AMSilk® is a registered trademark of AMSilk GmbH, all rights reserved.

About Fraunhofer Institute of Applied Polymer Research IAP
Fraunhofer IAP offers a wide range of services that include material and process development of bio-based and synthetic polymers on a laboratory and pilot plant scale. The product range includes fibers, films, materials and functional materials, as well as additives, fine chemicals and processing auxiliaries. One main focus of Fraunhofer IAP activities consists in biopolymer research ranging from the characterization, synthesis, and modification of raw materials to the development of new products and processes. Fraunhofer has extensive expertise and years of project experience particularly in the fields of cellulose and starch. This strength is amended by well-proven capabilities in processing biopolymers into fibers, films and nonwovens. Fraunhofer is very well prepared to meet the challenges of the development of optimized processing routes for the spinning of AMSilk’s Spidersilk proteins into high performance artificial silk fibers.


Contact:
Axel H. Leimer
AMSilk GmbH
Am Klopferspitz 19 im IZB
82152 Planegg/Martinsried, Germany
Tel: +49 (0)89 38156-4430
Email: This e-mail address is being protected from spambots. You need JavaScript enabled to view it
www.amsilk.com