DuPont Experimental Station

Aerial photo of the Dupont Experimental Station in the summer of 1997. The Brandywine Creek is in the immediate foreground and right. The stone building in the center of the picture is the original clubhouse of the Dupont Country Club which has now been displaced to the upper left of the photo. The Nemours Mansion and Gardens is seen in the upper center. Hagley Museum is off the picture to the immediate left. The highway in the upper left is Delaware Route 141, and all of this is part of the DuPont Historic Corridor.

The DuPont Experimental Station is the largest research and development facility of E. I. du Pont de Nemours and Company.[1] Located on the banks of the Brandywine Creek in Wilmington, Delaware, it is home to some of the most important discoveries of the modern chemical industry.[2][3] The Experimental Station is a more recent part of the DuPont legacy and is located on the DuPont Historic Corridor.

Overview

The Experimental Station marked its 100th anniversary in 2003. It was founded as an effort to move the DuPont Company from gunpowder and explosives into the new age of chemistry.[1] The site overlooks the original powder mills upon which the company was founded - now Hagley Museum and Library, a nonprofit educational institution documenting the history of DuPont business and technology. The Experimental Station is east from Hagley Museum and west-southwest from the Alfred I. duPont Hospital for Children.

As one of the first industrial research laboratories in the United States, the 150-acre (0.61 km2) campus-style Experimental Station in Wilmington, Delaware, serves as the primary research and development facility for DuPont. It is home to DuPont's Central Research and most other business units of DuPont are also represented on site. The Experimental Station is the birthplace of many of the innovative materials and products developed by DuPont since 1903, including:

For a more complete description of the inventions of the scientists and engineers of the Experimental Station, see the List of DuPont Experimental Station Inventions.

Today nearly 2,000 scientists and researchers - including roughly 600 with Ph.D.s - pursue new opportunities for a broad range of global markets including agriculture and nutrition, electronics, safety and protection, coatings and performance materials.[10] There are over 50 buildings encompassing 250,000 square meters of research space. This centralized facility allows collaborations to enhance scientific discovery. More recent successes include Suva refrigerants, the BAX food safety systems and Sorona polyester.

Research and development now under way includes nanotechnology, emerging video display technologies, fuel cells, and biomaterials produced from renewable resources such as corn. These developments could lead to foods that help prevent diseases and brittle bones, "smart" materials that can adjust performance on their own, microorganisms that produce biodegradable products and innovative materials for personal protection.

On the morning of January 24, 2007, President George W. Bush became the first president to visit the Experimental Station.[11] He saw examples of how DuPont is putting science to work to provide products for agricultural energy crops, feedstock processing and advanced biofuels such as ethanol and bio-butanol. He also viewed other alternative energy sources and technologies dealing with energy conservation. These are all part of DuPont’s sustainable growth mission.

References

  1. See David A. Hounshell and John Kenly Smith, Jr., “Science and Corporate Strategy — DuPont R&D 1902–1980,” Cambridge University Press, 1988, as a general historical reference about DuPont that includes much information about the Experimental Station.
  2. Adrian Kinnane, “DuPont: From the Banks of the Brandywine to Miracles of Science,” Johns Hopkins University Press, February 26, 2002 ISBN 0-8018-7059-3.
  3. For more early history and an early photograph of the Experimental Station, see http://www.plastiquarian.com/dupont.htm
  4. History of Nylon US Patent 2,130,523 'Linear polyamides suitable for spinning into strong pliable fibers', U.S. Patent 2,130,947 'Diamine dicarboxylic acid salt' issued and U.S. Patent 2,130,948 'Synthetic fibers', all issued 20 September 1938
  5. D. Tanner, J. A. Fitzgerald, B. R. Phillips, "The Kevlar Story - an Advanced Materials Case Study," Angewandte Chemie International Edition in English 28(5), 649 - 654 (1989)
  6. E. E. Magat, "Fibres from Extended Chain Aromatic Polyamides, New Fibres and Their Composites," Philosophical Transactions of the Royal Society of London Series A, 294(1411) 463-472 (1980)
  7. 1952: Mylar
  8. For a more thorough description of Corian surfaces, see http://www2.dupont.com/Surfaces/en_US/products/corian/index.html
  9. For some unique applications of DuPont’s safety glass see http://news.bbc.co.uk/1/hi/world/americas/6469941.stm for information about the Grand Canyon Skywalk and http://www.ifoapplestore.com/stores/glass_staircase.html for a view of the glass stairway in the Apple store in New York.
  10. DuPont.com: Experimental Station
  11. For more about Bush's visit and his speech on energy, see http://georgewbush-whitehouse.archives.gov/news/releases/2007/01/20070124-5.html

Coordinates: 39°46′26″N 75°34′19″W / 39.77389°N 75.57194°W / 39.77389; -75.57194

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