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         Macdiarmid Alan G:     more books (15)
  1. Organometallic Compounds of the Group IV Elements: The Bond to Carbon
  2. Handbook of Polyelectrolytes and Their Applications (Vols 1-3) by Nalwa Hari Singh, Alan G. MacDiarmid, 2002-07
  3. THE BOND TO HALOGENS AND HALOGENOIDS (in 2 parts): Part II of II. Organometallic Compounds of the Group IV Elements Series, Volume 1. by Alan G. (Ed) MacDiarmid, 1968-01-01
  4. Bond to halogens and halogenoids by Alan G Macdiarmid, 1972
  5. Inorganic Syntheses, Vol. 17
  6. Organometallic Compounds the Group IV Elements the Bond to Halogens and Halogenoids by MacDiarmid Alan G., 1972-01-01
  7. The Bond to Carbon. Part 1 & 2.organometallic Compounds of the Group IV Elements Volune1&2 by MacDiarmid Alan G, 1968
  8. Bond to carbon by Alan G MacDiarmid, 1968
  9. The Bond to Carbon Volume 1 Parts 1 and 2 by Alan G. MacDiarmid, 1968
  10. The Bond to Halogens and Halogenoids -Part I of Volume 2of the Organometallic Compounds of the Group IV Elememts series by Alan G. -editor MacDiarmid, 1972
  11. Philadelphia Section Honors International Award Winner.(chemist Dr. Alan G. MacDiarmid wins Society of Plastics Engineers award)(Brief Article): An article from: Plastics Engineering by James P. Toner, 2001-05-01
  12. Alan G. MacDiarmid (German Edition)
  13. Bond To Carbon Volume 1 Part 1 of Organometa by Alan G Macdiarmid, 1968-01-01
  14. SPE INTERNATIONAL AWARDS are presented at ANTEC 2001.: An article from: Plastics Engineering

61. The Nobel Prize In Chemistry 2000
The nobel Prize in Chemistry 2000. For the discovery and developmentof conductive polymers alan J. Heeger, alan G. macdiarmid. USA, USA.
http://www.aro.army.mil/accomplish/nobel/2000npchem.htm
The Nobel Prize in Chemistry 2000 "For the discovery and development of conductive polymers"
Alan J. Heeger Alan G. MacDiarmid USA USA University of California
Santa Barbara, CA University of Pennsylvania
Philadelphia, PA

62. Ralph Connor Memorial Lecture - 2001
alan G. macdiarmid, who won the nobel Prize in Chemistry for 2000, delivered theRalph Connor Memorial Lecture for 2001 at the Chemical Heritage Foundation on
http://www.chemheritage.org/ExternalRelations/New/RConnorLectures/2001RCONNOR.HT
Nobel Laureate Alan MacDiarmid delivered the 2001 Ralph Connor Memorial Lecture Alan G. MacDiarmid, who won the Nobel Prize in Chemistry for 2000, delivered the Ralph Connor Memorial Lecture for 2001 at the Chemical Heritage Foundation on March 22, 2001. Dr. MacDiarmid, the Blanchard Professor of Chemistry at the University of Pennsylvania, shared the 2000 Nobel Prize in chemistry with Alan J. Heeger, University of California at Santa Barbara, and Hideki Shirakawa, University of Tsukuba, "for the discovery and development of conductive polymers." The award recognized a remarkable discoverythat under the right circumstances plastic can be made to behave very like a metal, to conduct electricitya breakthrough that opened the door to a range of polymer-based electronics that can be produced quickly and cheaply. These products may also be a stepping-stone to real molecular-scale electronics, perhaps the next great advance of the computer age. Dr. MacDiarmid's talk reflected on changes in the chemical sciences and technologies across his career, focusing especially on the strengths of interdisciplinary research as exemplified by his prize-winning work. MacDiarmid has received numerous other awards, including the 1999 Award in Materials Chemistry from the American Chemical Society, the 1984 Chemical Pioneer Award from the American Institute of Chemists, and the 1989 John Scott Award from the City of Philadelphia. He holds over 28 patents and is the author or co-author of approximately 600 research papers.

63. Immigrant Scientists Among The World's Best
alan G. macdiarmid The Royal Swedish Academy of Sciences awarded the nobel Prizein Chemistry for 2000 jointly to alan J. Heeger, alan G. macdiarmid, Hideki
http://www.ailf.org/polrep/2000/pr0014.htm

64. The Scientist - Nobel Impact
My motivations have been driven by curiosity and color and controlled by money, said alan G. macdiarmid, one of this year's chemistry nobel prize winners.
http://www.the-scientist.com/yr2000/dec/russo_p10_001211.html
The Scientist 14[24]:10, Dec. 11, 2000
NEWS
Nobel Impact
As 100-year anniversary of prizes approaches, chemistry laureates discuss significance of awards and importance of science education
By Eugene Russo
Alfred Nobel , the reclusive inventor of dynamite, probably had little idea of the explosive impact his posthumous wishes would have on society. Nobel, who died in 1896, willed most of his considerable wealthgarnered from his groundbreaking 1866 inventionto the founding of several international prizes. The prizes were intended to honor those who confer benefit to mankind by promoting peace or by contributing to the fields of physics, chemistry, or physiology or medicine (the economics award was founded later, in 1968). After some legal wrangling by Nobel's family, the first prizes were awarded in 1901. They attracted considerable interest from their inception; in those days, such a large donation to scientific or philanthropic causes was quite rare. Everett I. Mendelsohn moderated a discussion among distinguished audience members and Nobel laureates including 1986 chemistry laureate Dudley Herschbach , 1981 chemistry laureate Roald Hoffman , and 1962 chemistry laureate Max F. Perutz

65. 2000 Nobel Prizes Announced In Physics, Chemistry And Medicine
The nobel Prize in Chemistry goes to alan J. Heeger (University of California,Santa Barbara), alan G. macdiarmid (University of Pennsylvania), and Hideki
http://www.aps.org/apsnews/1200/120003.html
December 2000 Edition
2000 Nobel Prizes Announced in Physics, Chemistry and Medicine
The 2000 Physics Nobel Prize recognizes the vital role of physics in the information technology revolution. Half the prize will be awarded this month to Zhores I. Alferov of the Ioffe Physico-Technical Institute in St. Petersburg, Russia and Herbert Kroemer of the University of California at Santa Barbara for their early work in such areas as the design of heterostructures, semiconductor lasers, epitaxial growth techniques, and optoelectronics. The other half of the prize will be awarded to Jack Kilby of Texas Instruments, one of the pioneers in producing integrated circuits. Tiny transistors replaced vacuum tubes as a means of performing the important tasks of switching and amplifying in electronic circuits, but it wasn't until many transistors and other elements could be wired up in a small space that today's information revolution could begin. Integration and miniaturization not only led to more efficient packaging but also to quicker processing since signals travel shorter paths. The Nobel Prize in Chemistry goes to Alan J. Heeger (University of California, Santa Barbara), Alan G. MacDiarmid (University of Pennsylvania), and Hideki Shirakawa (University of Tsukuba, Japan) for discovering that plastics polymers, modified in certain ways, can conduct electricity very well. From Saran wrap to foam cups, polymers are normally insulating materials, but in the 1970s, Shirakawa, finding a new way to make the polymer polyacetylene, accidentally added 1,000 times too much catalyst. He produced a silvery film, which he later presented in 1977 to Heeger and MacDiarmid, who had been investigating the possibility of "synthetic metals."

66. News
MidAtlantic (MJMA) announced today that Professor alan G. macdiarmid of the Universityof Pennsylvania Professor macdiarmid received the nobel Prize in
http://www.mjma.org/events/011125.html
News
Contact:
Jimmy Yoh, Ph.D.
President of MJMA: (609) 645-0900, jimmy.yoh@galaxyscientific.com Edward Pak
President of MJMA-Youth Division: (610) 738-7938, epakace@aol.com FOR IMMEDIATE RELEASE Mid-Atlantic (MJMA) announced today that Professor Alan G. MacDiarmid of the University of Pennsylvania will be the keynote speaker for the Monte Jade event on November 25, 2001 in the Grand Lecture Hall of the Department of Chemistry at the University of Pennsylvania. Professor MacDiarmid received the Nobel Prize in Chemistry in 2000. The title of his lecture, which is to start at 4 PM, is “New Materials for the Brave New World: Plastics that Conduct Electricity”. Prior to the lecture, there will be a half hour show of fun chemistry demonstrations. The Chemistry Department is located at the corner of 34th and Spruce Streets on Penn campus. Ample parking is available on streets, at the back parking lot (free) of the Materials Science Building at the corner of 33rd and Walnut, and the corner parking lot of 34th and Chestnut (pay). Mr. Edward Pak, a junior at Great Valley High School in Chester County and the President of the MJMA-Youth Division stated that, “this symposium will provide an excellent opportunity for students to listen to a Nobel Laureate and learn from his successes in his field. The focus of MJMA-Youth Division is not only on careers in science and technology development, but also on developing civic-minded individuals. I am sure that with the help of dynamic and capable leaders in our parent organization, MJMA, the MJMA-Youth Division will prosper and make great contributions to the Greater Philadelphia area in the years to come."

67. The Nobel Prize In Chemistry
The 2000 nobel Prize in Chemistry goes to alan J. Heeger (UCSanta Barbara), alanG. macdiarmid (University of Pennsylvania), and Hideki Shirakawa (University
http://www.aip.org/physnews/update/507-1.html
Subscribe to Physics News Update Archives
Related websites Physics News Graphics Physics News Links American Institute of Physics Online Journal Publishing Service ... Back to Physics News Update The Nobel Prize in Chemistry The 2000 Nobel Prize in Chemistry goes to Alan J. Heeger (UC-Santa Barbara), Alan G. MacDiarmid (University of Pennsylvania), and Hideki Shirakawa (University of Tsukuba, Japan) for discovering that plastics, modified in certain ways, can conduct electricity very well. Plastics are polymers, long chainlike molecules composed of simpler units known as monomers. From Saran wrap to foam cups, polymers are normally insulating materials. But in the 1970s, Shirakawa, finding a new way to make the polymer polyacetylene, accidentally added 1,000 times too much catalyst. He produced a silvery film, which he later presented in 1977 to Heeger and MacDiarmid, who had been investigating the possibility of "synthetic metals." The three studied the properties of the material. When they added iodine, the polymer's electrical conductivity shot up by several million times. The result was a whole new fieldconducting polymerswhich has led to plastic versions of many electronic devices, such as light emitting diodes. Compared to inorganic materials, plastics are more flexible and potentially cheaper and easier to manufacture. In addition, the discovery of conducting polymers provides a foundation for the development of molecular computers, in which electrically conducting molecules act as the building blocks of computing devices. (Nobel prize site at the July 1995

68. Nobel Prize For Chemistry Announced
STOCKHOLM, Sweden (AP) Americans alan J. Heeger and alan G. macdiarmid and HidekiShirakawa of Japan won the nobel Prize in chemistry Tuesday for their
http://www.americanplasticscouncil.org/apcorg/newsroom/articles/nobel_prize.html
Nobel Prize for Chemistry Announced
By Kim Gamel
Associated Press Writer This article is courtesy of the Associated Press. Reprinted with permission of The Associated Press, 2000.
STOCKHOLM, Sweden (AP) - Americans Alan J. Heeger and Alan G. MacDiarmid and Hideki Shirakawa of Japan won the Nobel Prize in chemistry Tuesday for their discoveries that plastic can be made electrically conductive - an advance that has led to improvements in film, TV screens and windows. The laureates will share the $915,000 prize for the "discovery and development of conductive polymers," according to the citation by the Royal Swedish Academy of Sciences. Heeger, 64, of the University of California at Santa Barbara, MacDiarmid, 73, of the University of Pennsylvania and Shirakawa, 64, of the University of Tsukuba learned that plastics can, with modifications, be made to conduct electricity as well as insulate. The three developed conductive polymers that have been used to reduce static electricity and interference on photographic film and computer screens. The plastics have also been used in the development of new color television screens and "smart windows" that reflect sunlight.

69. Physics News 507, October 10, 2000
THE nobel PRIZE IN CHEMISTRY goes to alan J. Heeger (UCSanta Barbara), alan G.macdiarmid (University of Pennsylvania), and Hideki Shirakawa (University of
http://newton.ex.ac.uk/aip/physnews.507.html
Physics News 507, October 10, 2000
PHYSICS NEWS UPDATE The American Institute of Physics Bulletin of Physics News Number 507 October 10, 2000 by Phillip F. Schewe and Ben Stein Previous
Next

October 2000

Main page
THE NOBEL PRIZE IN CHEMISTRY http://www.nobel.se/announcement/2000/chemistry.html ; the July 1995 Scientific American also has a nice background article on conducting polymers.) computers
crystals/solids

molecular
THE 2000 NOBEL PRIZE IN MEDICINE http://www.physicstoday.org/pt/vol-53/iss-10/p19.html computers
chaos

crystals/solids
...
medical
SUMMARIZING THE THREE SCIENCE NOBELS, one might say that they all recognize important studies of how information travels through circuits: semiconductor circuits in the case of the physics prize, plastic circuits in the case of the chemistry prize, and neural circuits in the case of the medicine prize. computers
crystals/solids

medical
Previous ... American Institute of Physics index and html by the University of Exeter. Please mail comments/problems to John Rowe

70. The Johns Hopkins News-Letter
2000 nobel Prize in Chemistry. alan J. Heeger, alan G. macdiarmid, and Hideki Shirakawawere awarded for the discovery and development of conductive polymers.
http://www.jhu.edu/~newslett/10-19-00/Science/2.html
Science October 19, 2000
The 2000 Nobel Prize winners
BY NELSON YANG
The Johns Hopkins News-Letter Alfred Nobel invented dynamite in 1866 and went on to make companies and laboratories in over twenty countries. Nobel desired to give away his fortune to promote peace and the intellectual pursuits of literature and science. The Nobel Foundation is a private institution established in 1900 based on the will of Alfred Nobel. It manages the funds and assets that make up the Nobel Prizes. The Nobel Prize is the first international award given yearly since 1901 honoring achievements in Physics, Chemistry, Medicine, Literature, and Peace. The Nobel Prizes are awarded annually in early October. The Prize Award Ceremony is held on December 10. 2000 Nobel Peace Prize Kim Dae Jung was awarded for his work for democracy and human rights in South Korea and in East Asia in general, and for his advancements toward peace and reconciliation with North Korea in particular. He is currrently the president of South Korea. 2000 Nobel Prize in Literature Gau Xing Jian was awarded for an oeuvre of universal validity, bitter insights and linguistic ingenuity, which has opened new paths for the Chinese novel and drama.

71. CHE286/486 - Polymer Science And Technology - Polymer Scientists
nobel Prize Winners. G. Natta Karl Ziegler (1963) coordination polymerizationand alan Heeger, alan macdiarmid, and Hideki Shirakawa (2000) Electrically
http://www.che.rochester.edu/Courses/CHE286/scientists.htm
University of Rochester
Department of Chemical Engineering
CHE 286/486
Polymer Science and Technology
Famous Polymer Scientists
Nobel Prize Winners
Hermann Staudinger (1953) polymer chain formula.
Brief biography

Staudinger's contributions in the story of rubber

Natta's biography

Ziegler's biography
Paul Flory (1974) Polymer thermodynamics, kinetics, molecular weight distribution, solution theory.
Autobiographical sketch

One of Flory's most important contributions is for the theory of polymer solutions, which has come to be called the Flory-Huggins model. Huggins was a scientist here with Kodak in Rochester. R. Bruce Merrifield (1984) Solid phase polypeptide synthesis.
Prof. Merrifield's group web site

His autobiography (Amazon.com)
Pierre DeGennes (1993) Polymer solid state theory and liquid crystals. Prof. Degennes web site Alan Heeger, Alan MacDiarmid, and Hideki Shirakawa (2000) Electrically conducting and semiconducting polymers Alan Heeger Nobel Prize Lecture Interview with Prof. Heeger regarding conducting polymers Alan MacDiarmid - Short biography Alan MacDiarmid Nobel Prize Lecture ... Hideki Shirakawa Nobel Prize Lecture One more scientist (Nobel Prize in 1921) whose contributions concerning Brownian motion viscosity of solutions , and light scattering are absolutely essential to polymer science, even if he is best known for other, unrelated work.

72. THE NOBEL PRIZE IN CHEMISTRY 2000
we will use plastics differently now, in the light of this year's nobel Prize in CA931065090 http//www.ipos.ucsb.edu/ajh.html alan G. macdiarmid (born 1927
http://cmbi.bjmu.edu.cn/news/0010/43.htm
Information Department, P.O. Box 50005, SE-104 05 Stockholm, Sweden
Phone: +46 8 673 95 00, Fax: +46 8 15 56 70, E-mail: info@kva.se , Web site: http://www.kva.se/
10 October 2000
Information for the public
The Nobel Prize in Chemistry, 2000
Available in:
We are used to the great impact scientific discoveries have on our ways of thinking. This year's Nobel Prize in Chemistry is no exception. What we have been taught about plastic is that it is a good insulator - otherwise we should not use it as insulation in electric wires. But now the time has come when we have to change our views. Plastic can indeed, under certain circumstances, be made to behave very like a metal - a discovery for which Alan J. Heeger, Alan G. MacDiarmid and Hideki Shirakawa are to receive the Nobel Prize in Chemistry 2000.
How can plastic become conductive?
Plastics are polymers , molecules that form long chains, repeating themselves like pearls in a necklace. In becoming electrically conductive, a polymer has to imitate a metal, that is, its electrons need to be free to move and not bound to the atoms. The first condition for this is that the polymer consists of alternating single and double bonds, called conjugated double bonds. Polyacetylene , prepared through polymerization of the hydrocarbon acetylene, has such a structure:
Polyacetylene
However, it is not enough to have conjugated double bonds. To become electrically conductive, the plastic has to be disturbed - either by removing electrons from (oxidation), or inserting them into (reduction), the material. The process is known as

73. Nobel Odulu Kazananlar
nobel ÖDÜLÜ KAZANAN KÝMYACILAR. 2000 The prize is being awarded with one halfjointly to alan J. HEEGER, alan G. macdiarmid, and HIDEKI SHIRAKAWA for the
http://www.kimyaokulu.com/bilimin onculeri/html/nobel odulu kazananlar.htm
NOBEL ÖDÜLÜ KAZANAN KÝMYACILAR The prize is being awarded with one half jointly to: ALAN J. HEEGER ALAN G. MACDIARMID , and HIDEKI SHIRAKAWA for the discovery and development of conductive polymers. AHMED ZEWAIL for his studies of the transition states of chemical reactions using femtosecond spectroscopy. The prize was awarded for pioneering contributions in developing methods that can be used for theoretical studies of the properties of molecules and the chemical processes in which they are involved. The prize was divided equally between: WALTER KOHN for his development of the density-functional theory and JOHN A. POPLE for his development of computational methods in quantum chemistry. The prize was divided, one half being awarded jointly to: PAUL D. BOYER and JOHN E. WALKER for their elucidation of the enzymatic mechanism underlying the synthesis of adenosine triphosphate (ATP) and with one half to: JENS C. SKOU

74. Terra - Cultura Y Ciencia- Libros - Premios Nobel
alan G macdiarmid. Fecha
http://cultura.terra.es/cac/libros/nobel/portada.cfm?idpersona=544&idpremio=499

75. Fullerene-Polymer Solar Cells With Kees Hummelen At Univ Of Groningen
be made to behave very like a metal a discovery for which alan J. Heeger, alanG. macdiarmid and Hideki Shirakawa are to receive the nobel Prize in Chemistry
http://www.fwn.rug.nl/solar/general conducting polymers.htm
MM_preloadImages('tudelft.gif','tudelft_over.gif'); HOME PROJECTS PARTICIPANTS PUBLICATIONS ... CONTACT US Conducting Polymers On October 10th, 2000 the Nobel Prize in Chemistry was awarded jointly to Alan G. MacDiarmid Hideki Shirakawa and our long-time colleague, collaborator Alan J. Heeger in acknowledgment for their work on conducting polymers. For this reason a discussion of the topic is most definitely best left to The Royal Swedish Academy of Sciences: The Nobel Prize in Chemistry, 2000 (NOT TEXT ONLY) http://www.nobel.se/announcement/2000/cheminfoen.html in English http://www.nobel.se/announcement/2000/cheminfosv.html in Swedish Text from the Nobel Prize Announcement:
Information Department, P.O. Box 50005, SE-104 05 Stockholm, Sweden
Phone: +46 8 673 95 00, Fax: +46 8 15 56 70, E-mail: info@kva.se , Web site: www.kva.se
Information for the public
The Nobel Prize in Chemistry, 2000
We are used to the great impact scientific discoveries have on our ways of thinking. This year's Nobel Prize in Chemistry is no exception. What we have been taught about plastic is that it is a good insulator - otherwise we should not use it as insulation in electric wires. But now the time has come when we have to change our views. Plastic can indeed, under certain circumstances, be made to behave very like a metal - a discovery for which Alan J. Heeger, Alan G. MacDiarmid

76. Alan Mac Diarmid - CIRS
MAC DIARMID, alan G. Chemistry of Materials Award, American Chemical Society (1999)nobel Prize for MA; Gau, SC; Heeger, AJ; Louis, EJ; macdiarmid, AG; Park, YW
http://www.cirs.net/researchers/Chemistry/MacDiarmid.htm
MAC DIARMID, ALAN G. macdiarm@sas.upenn.edu Blanchard Professor of Chemistry at the Department of chemistry, University of Pennsylvania , USA.
Research interests :
Research in this group is concerned with non-classical solid-state chemistry. This area of solid-state chemistry encompasses the synthesis and study of a relatively new class of compoundssemiconducting, highly conducting and superconducting inorganic and organic polymers and charge transfer salts. Of particular interest are "synthetic metals"organic polymers which exhibit the electronic and magnetic properties of metals but retain the mechanical properties of organic polymers. These remarkable materials, involving many completely new concepts in chemistry and physics have become known only during the past 18 years and present an enormous range of challenging synthetic, structural, physical, and theoretical problems at all research levels.
Prizes and awards
Philadelphia Section Award, American Chemical Society (1967)
Frederic Stanley Kipping Award, American Chemical Society (1970)

77. CNN.com - Television Research Team Win Nobel Prize - October 10, 2000
led to improvements in the quality of television have received the nobel Prizefor Chemistry. Americans alan J. Heeger and alan G. macdiarmid and Hideki
http://www.cnn.com/2000/WORLD/europe/10/10/sweden.nobel.02/
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Television research team win Nobel prize
STOCKHOLM, Sweden A team whose research led to improvements in the quality of television have received the Nobel Prize for Chemistry.

78. DFWXL - Dallas Ft. Worth And Northern Texas Tech Biz
RICHARDSON Dr. alan G. macdiarmid, the 2000 nobel Laureate in Chemistry, willfill the newly created James Von Ehr Distinguished Chair in Science and
http://www.dfwxl.com/article.php?sid=547

79. GK- National Network Of Education
Zewail, Ahmed H, 1999. Heeger, alan J. 2000. Shirakawa, Hideki, 2000. macdiarmid,alan G. 2000. Sharpless, K. Barry, 2001. Noyori, Ryoji, 2001. Knowles, William S.2001.
http://www.indiaeducation.info/infomine/nobel/nobelarchive.htm
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Chemistry Hoff, Jacobus Henricus Van't Fischer, Hermann Emil Arrhenius, Svante August Ramsay, Sir William Baeyer, Johann Friedrich Wilhelm Adolf Von Moissan, Henri Buchner, Eduard Rutherford, Lord Ernest Ostwald, Wilhelm Wallach, Otto Curie, Marie Sabatier, Paul Grignard, Victor Werner, Alfred Richards, Theodore William

80. UTD Perspectives Page 2
Dr. alan G. macdiarmid, nobel Laureate in Chemistry last year for his discoveriesin conducting polymers, has joined UTD as distinguished scholar in residence.
http://ospa.utdallas.edu/UTDPerspectives/Fall2001/Page2.htm
Volume 1, Issue 1 UTD Perspectives Page 2 Nobel Prize-Winning Chemist to Pursue Research at UTD Dr. Alan G. MacDiarmid, Nobel Laureate in Chemistry last year for his discoveries in conducting polymers, has joined UTD as distinguished scholar in residence. He will pursue his interests in nanoscience and nanobiotechnology in collaboration with other UTD faculty members, serve as the chair of the Advisory Board of UTD’s NanoTech Institute and serve as a senior advisor on science and technology to UTD President Franklyn Jenifer. Dr. MacDiarmid will continue to serve as Blanchard Professor of Chemistry at the University of Pennsylvania in addition to his new activities at UTD. “Earlier this year, I delivered a number of lectures at UTD and came away very impressed with the technology business surrounding the university, the research excellence of the UTD faculty and the determination of the administration to expand dramatically the scope of the university's research activity,” said MacDiarmid. “I find UTD to be an institution with a deserved emerging national reputation and a school which can become a truly great university.”

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