Nobel prize recognizes future for plastics.This year's Nobel Prize in Chemistry The Nobel Prize in Chemistry (Swedish: Nobelpriset i kemi) is awarded once a year by the Royal Swedish Academy of Sciences. It is one of the six Nobel Prizes. The first prize was awarded in 1901. goes to three researchers for the discovery and development of plastics that conduct electricity as metals and semiconductors do. Their work, which began with a serendipitous ser·en·dip·i·ty n. pl. ser·en·dip·i·ties 1. The faculty of making fortunate discoveries by accident. 2. The fact or occurrence of such discoveries. 3. An instance of making such a discovery. discovery a quarter century ago, has opened a new world of applications for plastics. The Royal Swedish Academy of Sciences The Royal Swedish Academy of Sciences or Kungliga Vetenskapsakademien is one of the Royal Academies of Sweden. The Academy is an independent, non-governmental scientific organization which acts to promote the sciences, primarily the natural sciences and mathematics. awarded the prize to Alan J. Heeger Alan Jay Heeger (born January 22, 1936) is an American physicist, chemist, academic and Nobel Prize laureate in chemistry. Heeger was born in Sioux City, Iowa. He earned his Ph.D in Physics from UC Berkeley in 1961. of the University of California, Santa Barbara History The predecessor to UCSB, Santa Barbara State College, focused on teacher training, industrial arts, home economics, and foreign languages. Intense lobbying by an interest group in the City of Santa Barbara led by Thomas Storke and Pearl Chase persuaded the State , Alan G. MacDiarmid of the University of Pennsylvania (body, education) University of Pennsylvania - The home of ENIAC and Machiavelli. http://upenn.edu/. Address: Philadelphia, PA, USA. in Philadelphia, and Hideki Shirakawa of the University of Tsukuba The current university was established in October, 1973. A forerunner of this university was Tokyo University of Education (東京教育大学 in Japan. Their legacy of conductive polymers now affects a range of applications and ongoing development, including antistatic materials, antirust coatings, batteries, and so-called smart windows that turn dark in sunlight. Researchers are also developing semiconductive polymers for use in lightemitting diodes, solar cells, lasers, and mobile-telephone displays. Because they're easy to process, semiconductive plastics could considerably lower the price of simple electronic devices, says George Malliaras of Cornell University, whose research includes studies of semiconducting polymers. "Inexpensive electronics will revolutionize our everyday life," he predicts. Yet the awardees' initial work, in the 1970s, was basic science "done purely from the point of view of curiosity," MacDiarmid told SCIENCE NEWS. Until that time, plastics were generally known as insulators. Then came the accident. While Shirakawa was trying a new way to synthesize the carbon-containing polymer called polyacetylene Polyacetylene (IUPAC name: polyethyne) is an organic polymer with the repeat unit (C2H2)n. The high electrical conductivity discovered for these polymers in the 1970’s accelerated interest in the use of organic compounds in microelectronics. , one of his experimental reactions received 1,000 times as much catalyst as he intended. The result: a striking silvery film. MacDiarmid first heard about the polymer during a seminar coffee break with Shirakawa. At the time, MacDiarmid had been working with Heeger on a metallic-looking film of another polymer. MacDiarmid invited Shirakawa to his lab in Philadelphia, where they and Heeger found that treating polyacetylene with iodine vapor--a process called doping--increases the material's electrical conductivity by a factor of up to a billion. "This work ignited a field," comments chemist and physicist Arthur J. Epstein of Ohio State University Ohio State University, main campus at Columbus; land-grant and state supported; coeducational; chartered 1870, opened 1873 as Ohio Agricultural and Mechanical College, renamed 1878. There are also campuses at Lima, Mansfield, Marion, and Newark. in Columbus. "I am delighted that it has now been recognized by the Nobel committee." Adds MacDiarmid: "I feel that this award is really an extremely big boost for interdisciplinary science." The research on conductive polymers has brought together chemists, physicists, electrical engineers, and others. "You can't explain how you feel" upon winning the Nobel, Heeger told SCIENCE NEWS. "I knew it was important work back in the 1970s ... but it took help from colleagues all over the world to bring those early ideas to a reality that will make these materials important in technology and lead to real products." MacDiarmid says he had no idea the award was coming. "It's like if you go to Las Vegas and you put a coin in the slot," he says. "There's always the chance that you may win the $10 million jackpot, but you don't ever really believe that you will." |
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