DENVER, Colorado \u2014 Clothing from cornfields? DuPont scientists have recently developed an innovative bio-based method that uses corn \u2014 instead of conventional petroleum-based processes \u2014 to produce the latest polymer platform for use in clothing, carpets and automobile interiors.<\/p>\n
DuPont scientist Dr. Scott Nichols will unveil the latest findings today at the American Association for the Advancement of Science (AAAS) annual meeting and science innovation exposition here. Nichols\u2019 presentation, “Engineering Microbes for the Production of 1,3-Propanediol \u2014 Creating DuPont\u2122 Sorona\u00ae Polymer of the Future from Corn,\u201d will be from noon to 1:30 p.m. today at Workshop D (Colorado Convention Center: Exhibit Hall A).<\/p>\n
Traditionally, fibers are petroleum-based materials. DuPont, with joint development partner Genencor International, developed a bio-based method that uses renewable resources instead of typical petrochemicals. Through metabolic engineering of biochemical pathways, a microorganism was engineered to use sugars from corn and corn biomass in a fermentation-based process. From annually renewable agricultural products, DuPont can now produce 1,3 propanediol (PDO), the key building block for DuPont\u2122 Sorona\u00ae \u2014 the company\u2019s newest polymer platform<\/p>\n
The unique technical properties of Sorona\u00ae are derived from a unique, semi-crystalline molecular structure featuring a pronounced “kink.\u201d When stress is exerted on the molecule, strain deformation occurs first in its crystalline, lower modulus regions. As stress is released, the crystalline structure locks in, allowing a complete recovery to the initial shape. In conjunction with this distinctive characteristic, Sorona\u00ae fiber offers additional advantages over both polyester and nylon: it has a softer feel and supports easier, more versatile dyeability with excellent washfastness and UV resistance.<\/p>\n
Currently, DuPont uses a petrochemical process in Kinston, N.C., to produce the Sorona\u00ae polymer. The company expects to announce transition plans to the new bio-based process later this year.<\/p>\n
At the AAAS meeting, Nichols will provide an overview of the fermentation-based PDO initiative and highlight key success factors in the research and development phases, including the value of collaborative partnerships. The focus of his presentation will be on the development of bio-routes via fermentation of renewable resources.<\/p>\n
“Until now, most fibers have been produced using a petroleum-based process,\u201d Nichols said. “Now, after seven years of research in conjunction with Genencor International, we have honed a bio-based process, using renewable resources like corn and new abilities of E.coli to deliver an organism that can reliably produce PDO. The organism converts renewable corn sugar into reliably pure, consistent, and commercially viable amounts of PDO. The path to bio-based Sorona\u00ae combines the emerging metabolic engineering discipline with the premiere polymer science capabilities of DuPont.\u201d<\/p>\n
In addition to Nichols\u2019 presentation at the AAAS meeting, DuPont Central Research & Development Vice President Dr. Uma Chowdhry will deliver her topical lecture, “Sustainability and Integrated Science for the 21st Century,\u201d on Saturday, Feb. 15 from 1:30 to 2:15 p.m. at Convention Center Room A209. Also, DuPont staff and leading scientists \u2014 including nanotechnology researcher Dr. Tim Gierke \u2014 will be available at the DuPont booth (Booths no. 207, 209) in the exhibition area of the AAAS meeting.<\/p>\n
DuPont is a science company. Founded in 1802, DuPont puts science to work by solving problems and creating solutions that make people\u2019s lives better, safer and easier. Operating in more than 70 countries, the company offers a wide range of products and services to markets including agriculture, nutrition, electronics, communications, safety and protection, home and construction, transportation and apparel.<\/p>\n
DuPont\u2122 and Sorona\u00ae are a trademark and a registered trademark of E.I. du Pont de Nemours and Company.<\/p>\n
\u00a9 2003 DuPont<\/p>\n