Hideki Shirakawa - Nobel Prize In Chemistry hideki shirakawa. For the discovery and development of conductive polymers hideki shirakawa. External links. The Nobel Prize hideki shirakawa http://www.nobel-prize.org/EN/Chemistry/shirakawa.html
PSIgate - Physical Sciences Information Gateway Search/Browse Results You searched for hideki* +shirakawa (subject(s) All ). hideki shirakawa Aco-winner of the Nobel Prize for chemistry, shirakawa s main contribution to http://www.psigate.ac.uk/roads/cgi-bin/psisearch.pl?term1=Hideki Shirakawa&limit
PSIgate - Physical Sciences Information Gateway Search/Browse Results Professor hideki shirakawa is awarded the Nobel Prize in chemistry, 2000. Prof . hideki shirakawa Winner of the 2000 Nobel Prize in Chemistry http://www.psigate.ac.uk/roads/cgi-bin/search_webcatalogue.pl?term1=Hideki Shira
Extractions: For a hundred years young graduates have been told that “there's a great future in plastics.” That exhortation continues to have currency today, thanks to the work of New Zealand born and educated scientist Alan MacDiarmid who was awarded the Nobel Prize in Chemistry for 2000 for his and his colleagues' "discovery and development of electronically conductive polymers." The Nobel Prize recognized advances that are seen to be the future of the technology that fuels the progress of the age of information. Alan, the model of a scientist, lives by the sign in his study: “I am a very lucky person and the harder I work the luckier I seem to be.” In January of 1892 young Archie MacDiarmid had a country holiday at the farm of friends, the Rutherfords at Pungarehu on the Taranaki coast near Cape Egmont. In a letter home Archie mentioned that one of the Rutherford boys, "Earnest" had made 28 gallons of wine. Ernest Rutherford's nomination for the 1907 Nobel Prize in Chemistry failed. Instead it was awarded to Edward Buchner of the University of Berlin for his studies of the fermentation process. But Rutherford received the 1908 Nobel Prize in Chemistry, for his fundamental discovery that the natural transmutation of heavy atoms was the explanation of radioactivity.
Hideki Shirakawa - Autobiography hideki shirakawa Autobiography. For the ten years from the third grade ofelementary school to the end of high school, I lived in the small city of http://www.geocities.com/n21dh/shirakawa-autobio.html
Extractions: For the ten years from the third grade of elementary school to the end of high school, I lived in the small city of Takayama, a town of less than sixty thousand, located in the middle of Honshu, Japan. Even though it was far away from Japan's principal cities, Takayama has been called a "little Kyoto" because of the similarity of its landform to Kyoto, the city sits in a basin surrounded by mountains with a river flowing through it, and because of its long-established cultural heritage and tradition. In this small town, rich in natural beauty, I spent my days enthusiastically collecting insects and plants, and making radios. My affinity for science was awakened and grew during in these ten years. Long after I became a polymer scientist, I occasionally remembered a short composition I had written during my last year in junior high school. At that time students compiled a commemorative collection of compositions describing our future dreams. As I recalled, I wrote something about my wish to be a scientist in the future and to conduct research on plastics useful for ordinary people. I cannot be sure what I wrote exactly because I lost the book of essays during repeated moves afterwards. I had long regretted this loss because I wanted to know more about why and how a junior high school boy decided on a future research career in plastics. Much to my surprise, I found that the full composition I had lost was printed in every Japanese newspaper the day after the Royal Swedish Academy of Sciences announced its award of the Nobel Prize in Chemistry for 2000 to two friends and myself. After 45 years, I could finally read the complete composition again. I was deeply impressed with the great power of the Nobel Prize.
Chembytes E-zine 2000 - Electrifying Discoveries In the audience was hideki shirakawa, who topped MacDiarmid s example with hisown a silvercoloured polyacetylene. This also looked metallic, http://www.chemsoc.org/chembytes/ezine/2000/stevenson_nov00.htm
Extractions: In 1975, the story goes, Alan MacDiarmid gave a lecture in Japan. Proudly, he showed the audience a piece of gold-coloured polymer that he had made. People had got used to plastics being non-metallic insulators, but this one was different: an (SN) x compound, it looked like a metal, and at low temperatures it acted like a semiconductor. In the audience was Hideki Shirakawa, who topped MacDiarmid's example with his own: a silver-coloured polyacetylene. This also looked metallic, but it was a real, carbon-based organic polymer, and it was (by the standards of other plastics) moderately conducting. Polyacetylene had previously been prepared (by Natta, amongst others) as a rather useless black powder, but Shirakawa had discovered how to make well-defined film by reacting acetylene on the surface of a Ziegler-Natta catalyst system. As a conjugated polymer, the film had plenty of delocalised electrons; could they make it conduct electricity like a real metal?
Extractions: For the ten years from the third grade of elementary school to the end of high school, I lived in the small city of Takayama, a town of less than sixty thousand, located in the middle of Honshu, Japan. Even though it was far away from Japan's principal cities, Takayama has been called a "little Kyoto" because of the similarity of its landform to Kyoto, the city sits in a basin surrounded by mountains with a river flowing through it, and because of its long-established cultural heritage and tradition. In this small town, rich in natural beauty, I spent my days enthusiastically collecting insects and plants, and making radios. My affinity for science was awakened and grew during in these ten years. Long after I became a polymer scientist, I occasionally remembered a short composition I had written during my last year in junior high school. At that time students compiled a commemorative collection of compositions describing our future dreams. As I recalled, I wrote something about my wish to be a scientist in the future and to conduct research on plastics useful for ordinary people. I cannot be sure what I wrote exactly because I lost the book of essays during repeated moves afterwards. I had long regretted this loss because I wanted to know more about why and how a junior high school boy decided on a future research career in plastics.
Extractions: Mr. Oshima, Minister of Education and Minister of STA, expressed on October 10 his opinion applauding the remarkable achievements of Dr. Shirakawa. Dr. Shirakawa was the 9th Japanese Nobel Prize laureate following Mr. Kenzaburo Oe who won in literature in 1994, and the 2nd in chemistry following Mr. Ken-ichi Fukui (deceased) in 1981.
What's Up Around The Prime Ministeri14j Dr. hideki shirakawa, Nobel Laureate in Chemistry 2000, visits the Prime Minister (18October 2000). Click on the images to see a larger version. 01s.jpg http://www.kantei.go.jp/foreign/moritoku_e/moritoku_e_15/
Extractions: On 18 October 2000, Prime Minister Mori received at the Kantei (Official Residence of the Prime Minister) Dr. Hideki Shirakawa, Professor Emeritus of the University of Tsukuba, to whom the Royal Swedish Academy of Sciences had decided to award the Nobel Prize in Chemistry for 2000, and talked with the Laureate for half an hour. Referring to a news report which stated that Professor Shirakawa, as a schoolboy, had not been good at some subjects, Prime Minister Mori said: "I have to thank Professor Shirakawa for vindicating my view that a student does not necessarily have to be good at all subjects. If that student excels in one area, his or her education is a success." Professor Shirakawa remarked on the decision of the Royal Swedish Academy of Sciences that the potential of his work for the advancement of the IT revolution must have weighed in his favor. The Nobel Prize in Chemistry for 2000 is awarded jointly to Professor Shirakawa and two American scientists, Professor Alan J. Heeger of the University of California at Santa Barbara and Professor Alan G. MacDiarmid of the University of Pennsylvania, "for the discovery and development of conductive polymers."
Hideki Shirakawa Translate this page Hideko shirakawa, de 64 anos, nascido em 1936 em Tóquio, é professor de químicano Instituto de Ciências dos Materiais da Universidade de Tsukuba (Japão). http://www.terra.com.br/mundo/2000/10/11/082.htm
Extractions: escolha a cidade Brasil - Sul - Curitiba Porto Alegre - Sudeste - Belo Horizonte Rio de Janeiro - Centro-Oeste - Campo Grande - Nordeste - Fortaleza Natal Recife Salvador Teresina - Norte - Manaus Buenos Aires Santiago - Estados Unidos - Boston Chicago Miami Nova York Orlando San Francisco Washington - Europa - Barcelona Lisboa Londres Madri Paris Roma Outras cidades Hideko Shirakawa, de 64 anos, nascido em 1936 em Tóquio, é professor de química no Instituto de Ciências dos Materiais da Universidade de Tsukuba (Japão). Esta é a 91ª vez que o Nobel de Química é atribuido. Trata-se da segunda vez que um japonês recebe este prêmio. O primeiro foi recebido em 1981 por Kenichi Fukui, que o compartilhou com o americano Roald Hoffmann. Volte para o especial Prêmio Nobel
Miraikan Press Releases Scientist in Chemistry Dr. hideki shirakawa and the Science Workshop - Dr. hideki shirakawa s Profile Message from Dr. hideki shirakawa http://www.miraikan.jst.go.jp/e/press/040608.html
Extractions: The National Museum of Emerging Science and Innovation (Director Mamoru Mohri, 2-41 Aomi Koto-ku Tokyo) will hold the "Message from the Nobel Prize Winning Scientist in Chemistry - Dr. Hideki Shirakawa and the Science Workshop.-" It will be held a total of 8 times over the 9 months from July of this year to March of next year. This will be the 2nd year this experimental program based on general participation, which was jointly developed by the staff members of Miraikan and Dr. Hideki Shirakawa, (Professor Emeritus University of Tsukuba) (the first took place starting from October of last year for approx. half an year) will be held. We have decided to hold this project again this year, where Dr. Shirakawa himself becomes the lecturer and conveys the enjoyment of chemistry through experiments, in response to requests for the resumption and continuation of the experimental program. This request was made by those who were not able to participate through selection by lottery. This project created a sensation where there were 20 times the number of applicants exceeding the capacity of 20 for each program. The project received excellent reviews such as "I became interested in experiments" or "I'm much more interested in chemistry," etc., from those who participated last year.
Extractions: HOME HELP FEEDBACK SUBSCRIPTIONS ... TABLE OF CONTENTS This Article Full Text Full Text (PDF) Alert me when this article is cited ... Alert me if a correction is posted Services Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager PubMed PubMed Citation Articles by Shirakawa, H. Articles by Miyazaki, S. Biophysical Journal The Biophysical Society Hideki Shirakawa and Shunichi Miyazaki Department of Physiology, Tokyo Women's Medical University School of Medicine, Shinjuku, Tokyo, 162-8666, Japan Correspondence: Address reprint requests to Hideki Shirakawa, PhD, Dept. of Physiology, Tokyo Women's Medical University School of Medicine 8-1 Kawadacho, Shinjuku, Tokyo, 162-8666, Japan. Tel./Fax: 81-3-5269-7362; E-mail: Simultaneous measurement of multiple signaling molecules is essential to investigate their relations and interactions in living cells. Although a wide variety of fluorescent probes
JSPS Awards For Eminent Scientists Research discussion with Professor Emeritus hideki shirakawa, University ofTsukuba and Professor Alan G. MacDiarmid, University of Pennsylvania, at hotel. http://www.jsps.go.jp/english/e-awards/report/heeger.html
JSPS Awards For Eminent Scientists Research discussion with Professor Emeritus hideki shirakawa, University ofTsukuba and Professor Alan J. Heeger, University of California, at the hotel. http://www.jsps.go.jp/english/e-awards/report/alan.htm
Enciclopedia :: 100cia.com Translate this page hideki shirakawa. (En este momento no hay texto en esta p�gina. Para iniciarel art�culo, click editar esta p�gina (http//es.wikipedia. http://100cia.com/enciclopedia/Hideki_Shirakawa
Extractions: Buscar: en Google en noticias en Enciclopedia Estás en: 100cia.com > Enciclopedia Hideki Shirakawa (En este momento no hay texto en esta p�gina. Para iniciar el art�culo, click editar esta p�gina http://es.wikipedia.orgHideki_Shirakawa Información de Wikipedia (Licencia de uso GFDL) e Internet
Physics Today December 2000 Photocredit MARGUERITE MILLER/UNIVERSITY OF PENNSYLVANIA, shirakawa. Alan Heeger,Alan MacDiarmid, hideki shirakawa http://www.physicstoday.com/pt/vol-53/iss-12/p19.html
Extractions: of Conducting Polymers Conducting polymers have found applications ranging from antistatic coatings to all-polymer integrated circuits. Alan Heeger Alan MacDiarmid Hideki Shirakawa In 1976, a serendipitous chain of events brought together three individuals from different academic and geographical cultures to study a curious polymer: polyacetylene. The trio soon discovered that doping this polymer can change its behavior from insulating to metallic. For that work, the threeAlan Heeger, a physicist now at the University of California, Santa Barbara; Alan MacDiarmid, a chemist from the University of Pennsylvania then specializing in inorganic chemistry; and Hideki Shirakawa, a polymer chemist who has recently retired from Japan's Tsukuba Universityhave now earned the 2000 Nobel Prize in Chemistry "for the discovery and development of conductive polymers." Heralded at the time, the discovery of conducting polymers has become even more significant in hindsight as this class of materials has proven to be not only of intrinsic scientific interest but also of great technological promise. Conducting polymers have been put to use in such niche applications as electromagnetic shielding, antistatic coatings on photographic films, and windows with changeable optical properties. And the undoped polymers, which are semiconducting and sometimes electroluminescent, have led to even more exciting possibilities, such as transistors, light-emitting diodes (LEDs), and photodetectors.
ChIN S Summary Page Hideki Shirakawa, Institute Of Materials This is the summary page for hideki shirakawa, Institute of Materials Science,University of Tsukuba, Japan on CSDLChIN. http://chemport.ipe.ac.cn/cgi-bin/chemport/getfiler.cgi?ID=LOoXExdw9Dvik8JwbiGhv
