ALPHABETICAL LISTING OF NOBEL PRIZE LAUREATES IN CHEMISTRY ALPHABETICAL LISTING OF nobel PRIZE LAUREATES IN CHEMISTRY. Name, Year Awarded.Alder, Kurt, 1950. Lee, Yuan T. 1986. lehn, jeanmarie, 1987. Leloir, Luis F. 1970. http://www.bioscience.org/urllists/nobelc.htm
Extractions: ALPHABETICAL LISTING OF NOBEL PRIZE LAUREATES IN CHEMISTRY Name Year Awarded Alder, Kurt Altman, Sidney Anfinsen, Christian B. Arrhenius, Svante August ... Zsigmondy, Richard Adolf ALPHABETICAL LISTING OF NOBEL PRIZE LAUREATES IN PHYSIOLOGY AND MEDICINE Name Year Awarded Adrian, Lord Edgar Douglas Arber, Werner Axelrod, Julius Baltimore, David ... Zinkernagel, Rolf M. Source: The Nobel Prize Internet Archive
Lehn jeanmarie lehn was born in Rosheim, France in 1939. He received the nobel Prize inChemistry in 1987 for work with the synthesis of cryptands (molecules that http://virtual.parkland.edu/lsonnichsen/che203/paragraphs/lehn.htm
Extractions: Jean-Marie Lehn was born in Rosheim, France in 1939. He received his B.A. in Organic Chemistry from the University of Strasburg in 1960 and his Ph. D. in 1963. He worked in the lab at Robert Burns Woodward at Harvard where he participated in total synthesis of vitamin B12. He received the Nobel Prize in Chemistry in 1987 for work with the synthesis of cryptands (molecules that capture ions to create new chemical compounds). He designed a new branch of chemistry, Supramolecular Chemistry, which deals with the connection of two or more chemical substances through intermolecular forces. Columbia Electronic Encyclopedia. Lehn, Jean Marie http://www.infoplease.com 06 Feb 03. Unknown, Ten Nobel for the Future www.hypothesis.it/nobel/eng/bio/pauli.htm 06 Feb 03
World Chemistry Congress jeanmarie lehn won the nobel Prize for Chemistry in 1987 together with DonaldJ. Cram and Charles Petersen for their development and use of molecules with http://www.ccm.com.au/wcc/speakers.html
Extractions: Professor Yuan-Tseh Lee received his B.S. degree from the National Taiwan University in 1959. After finishing, his M.S. degree at TsingHua University, he pursued his Ph.D. thesis research at the University of California at Berkeley, followed by postdoctoral work as a Research Fellow with Dudley Herschbach at Harvard. After being appointed assistant professor at the University of Chicago in 1968, he rapidly made his laboratory the North American capital of molecular beam studies. Professor Lee returned to Berkeley as a full professor in 1974 and significantly expanded his research to include, in addition to crossed molecular beams, studies of reaction dynamics, investigations of various primary photochemical processes, and the spectroscopy of ionic and molecular clusters. In 1994, he retired from his position of University Professor and Principal Investigator for the Lawrence Berkeley Laboratory at the University of California at Berkeley and assumed the position of the President of Academia Sinica, Taiwan. His molecular beam work is seen as providing the experimental underpinning of much of our understanding of the dynamics of chemical reactions.
Lindau 2002: 2002 Trip Report Lindau Conference Day 2 Dr. jeanmarie lehn presentation Self-organization of Functional Supramolecular Scientificdiscussion between nobel Laureates, assistants, and students at http://www.orau.gov/orise/edu/lindau2002/day2.htm
Extractions: On the Agenda: Daily info session Dr. Ahmed Zewail presentation: "Chemistry and Biology in a New Light" Dr. Jean-Marie Lehn presentation: "Self-organization of Functional Supramolecular Systems" Dr. Richard Ernst presentation: "Fourier Transform Methods in Spectroscopy, A Key Towards Insight and Comprehension" Dr. Paul Boyer presentation: "The Oxygen we Breath - Friend or Foe" Dr. Hartmut Michel presentation: "Cytochrome and Oxidase: The Biosynthesis of Water" Scientific discussion between Nobel Laureates, assistants, and students at the Inselhalle Goldenes Lamm Dinner with Laureates A crowd gathers outside the Inselhalle each morning as eager students await the beginning of lectures by the Nobel Laureates. Read about it!
Embassy Of France In Australia - Scientific Section French Science and Technology No. 26. From matter to life. nobel Prizewinner jeanmarie lehn in Australia. Professor jean-marie lehn http://www.ambafrance-au.org/fst/pages/fst26/lehn.en.htm
Extractions: Professor Jean-Marie Lehn was in Australia earlier this year to deliver the prestigious Birch Lectures at the ANU. While in Canberra, he spoke to a joint meeting of AFAS ACT Branch and members of The National Science and Technology Centre (Questacon) about his work, and about the big issues at the frontiers of experimental chemistry and biology. He also had speaking engagements at the universities of Perth, Melbourne, Sydney and Townsville. With this discovery he began his research on `molecular recognition', which is at the basis of fundamental biological processes and seeks to understand how a molecule finds the next molecule it needs to react with, in the cauldron of chemical soup that makes up the interior of every living cell. Animate matter, just like inanimate matter, living organisms (or any other matter, for that matter!), is made up of molecules and organised systems that result from the interaction of molecules. If the field of chemistry is the entire universe of all possible kinds of molecular and supramolecular `species', then those species present in natural living organisms form just one set in that universe of all possible sets of such species waiting to be discovered. Synthetic chemistry has developed a range of very powerful techniques by which to build ever more complicated molecules, where each molecule is constructed from atoms held together by covalent bonds. But beyond this we now have supramolecular chemistry, which aims to build molecular structures that depend on interactions between the constituent molecules. To build these structures in a purposeful way requires the use of information at the molecular level, in a kind of molecular programming, so forming a link between chemistry and information science. Such programming is at the basis of fundamental biological processes, and holds part of the answer to the riddle of when an organic molecule ceases to be just another bit of inanimate matter and effectively `comes to life'.
Foresight Update 2 Page 1 The 1987 nobel prize for chemistry went to Charles J. Pedersen, Donald J. Cram,and jeanmarie lehn for developing relatively simple molecules that perform http://www.foresight.org/Updates/Update02/Update02.1.html
Extractions: Foresight Update 2 page 1 A publication of the Foresight Institute Foresight Update 2 - Table of Contents Several paths lead to nanotechnology, and work contributing to one or more of those paths has won several recent Nobel prizes. Even without the motive of building assemblers, practical and academic motives have moved technology in directions that bring assemblers closer. The 1987 Nobel prize for chemistry went to Charles J. Pedersen Donald J. Cram , and Jean-Marie Lehn for developing relatively simple molecules that perform functions like those of natural proteins. Pederson synthesized what are known as "crown ethers," a family of molecules that selectively bind specific metal ions in solution, holding them in properly-sized internal hollows. Cram and Lehn have extended this work, using chemical techniques to synthesize a wide range of molecules that specifically bind other molecules. This sort of selective binding is a common protein function. The molecular machinery of cells self-assembles though the selective binding of one protein to another. Other molecules that bind selectively to one another might likewise be used as a basis for molecular machinery, providing an alternative to proteins for building first-generation assemblers. The ongoing work of Cram, Lehn, and their coworkers may be of great importance to the development of nanotechnology.
Foresight Update 26 Page 2 (Editor's note In this issue, Jeff Soreff focuses on an ambitious plan for advancesin chemistry as projected in nobel chemist jean-marie lehn's new book http://www.foresight.org/Updates/Update26/Update26.2.html
Extractions: Jean-Marie Lehn, the winner of the 1987 Nobel Prize in chemistry, provides a broad overview of the chemistry of "soft bonds" in Supramolecular Chemistry . Lehn covers a broad variety of structures and functions. Lehn's goal for chemistry is stated clearly: creating "molecular and supramolecular devices." From the perspective of molecular manufacturing, perhaps the most crucial is the effect on synthesis. As Lehn writes: "The contribution of supramolecular chemistry to chemical synthesis has two main aspects: the production of the non-covalent supramolecular species themselves and the use of supramolecular features to assist in the synthesis of covalent molecular structures." Both of these options can create atomically precise components useful in molecular mechanisms. Both can extend to larger 3D structures than are accessible through traditional synthetic techniques. Amongst the types of supramolecular species, one of the distinctions that Lehn makes is between: "(1) supermolecules, well-defined, discrete oligomolecular species that result from the intermolecular association of a few components (a receptor and its substrate(s)) following a built-in "Aufbau" scheme based on the principles of molecular recognition; [and] (2) supramolecular assemblies, polymolecular entities that result from the spontaneous association of a large undefined number of components..." Supermolecules can therefore be atomically precise, while polymolecular entities are more similar to phases or polydisperse polymers.
Biographies: Winners Of The Nobel Prize In Chemistry History of Science History of Chemistry Winners of the nobel Prize in Kuhn,Richard; Langmuir, Irving; Lee, Yuan T. lehn, jeanmarie; Leloir, Luis F. Libby http://www.infochembio.ethz.ch/links/en/history_chem_nobel_bio.html
Extractions: Back to index page 4th June 2001 ETHYPHARM ANNOUNCES THE FORMATION OF ITS SCIENTIFIC ADVISORY BOARD World-renowned scientists to help develop novel DDS technology for the pharma/biotech industries Ethypharm, one of the world's leading drug delivery system (DDS) companies, today announced the formation of its Scientific Advisory Board. The SAB, which consists of eminent pharmaceutical scientists from around the globe, will be responsible for advising Ethypharm on the strategic development of its research and development activities. In addition, the SAB will provide Ethypharm with access to technologies and important developments in the fields of science, chemistry and biotechnology that are relevant for DDS technologies. "I am delighted we have assembled such a world-renowned group of scientists to form our Scientific Advisory Board," commented Patrice Debrégeas, Ethypharm's Chairman and CEO. "The formation of the SAB is an important step for Ethypharm and reflects the increasing use of cutting edge science in the DDS systems that we are developing. I am sure that the input of the members of the SAB will be of immense value as we continue to come up with increasingly novel solutions to the key delivery problems facing the pharmaceutical and biotechnology industries."
Tous Les Prix Nobel De Chimie Prix nobels, Alfred nobel. A. Kurt Alder. Sydney Altman. Richard Kuhn. L. IrwingLangmuir. Luis F. Leloir. jeanmarie lehn. Frank Willard Libby. William N. Lipscomb.M. http://membres.lycos.fr/xjarnot/Chimistes/Prix_Nobel_alphabetique.html
Extractions: P rix Nobels Alfred Nobel A Kurt Alder Sydney Altman ... Aston B Adolf Johann Friedrich Wilhelm von Baeyer Sir Derek Harold Barton ... Butenandt C Melvin Calvin Thomas Cech ... Curl D Peter Joseph William Debye Johann Deisenhofer ... Diels E Manfred Eigen Hans von Euler ... Chelpin F Emil Hermann Fischer Ernst Otto Fischer ... Fukui G William Francis Giauque Walter Gilbert ... Grignard H Fritz Haber Otto Hahn ... Huber J Frédéric Joliot-Curie Irène Joliot-Curie K Jérôme Karle Paul Karrer ... Kuhn L Irwing Langmuir Luis F. Leloir ... Lipscomb M Edwin M. McMillan Archer John Porter Martin ... Mulliken N Giulio Natta Hermann Walther Nernst ... Northrop O Lars Onsager Friedrich Wilhelm Ostwald P Linus Carl Pauling Charles J. Pedersen ... Prigogine R Sir William Ramsay Franck Sherwood Rowland ... Ruzicka S Paul Sabatier Frederik Sanger et Glenn T. Seaborg Nicolas Nicolaevitch Semenov ... Synge T Henry Taube Arne Wilhelm Kaurin Tiselius ... Todd U Harold Clayton Urey V Jacobus Henricus Van't Hoff Vincent du Vigneaud ... Virtanen W Otto Wallach Alfred Werner ... Woodward Y Yuan Lee Z Karl Ziegler Richard Zsigmondy Pour tous problèmes ou remarques, écrivez au webmaster
Portrait 1742 1806 Leidy, Joseph, 1823 - 1891 Lehmann, Johann Gottlob, d. 1767 Lemery, Nicolas,1645 - 1715 lehn, jean-marie, 1939- , prix nobel 1987 Lesley, JP, 1819 http://membres.lycos.fr/chipe/portrait.html
GK- National Network Of Education Herschbach, Dudley R. 1986. Lee, Yuan T. 1986. Pedersen, Charles J. 1987. lehn,jeanmarie, 1987. Cram, Donald J. 1987. Huber, Robert, 1988. Michel, Hartmut,1988. http://www.indiaeducation.info/infomine/nobel/nobelarchive.htm
Nobel Prize Winners To Visit Bristol Two winners of the nobel Prize for Chemistry are to visit Bristol within a monthof each other. On March 25 Professor jeanmarie lehn will be one of five http://www.bris.ac.uk/Depts/Info-Office/news/archive/chemistry.htm
Extractions: Nobel Prize winners to visit Bristol Two winners of the Nobel Prize for Chemistry are to visit Bristol within a month of each other. On March 25 Professor Jean-Marie Lehn will be one of five international speakers to talk at a prestigious conference being organised by Bristol University's School of Chemistry. Professor Lehn, from the Louis Pasteur University in Strasbourg, was one of three people to share the 1987 Nobel Prize for his work on man-made molecules that mimic important biological processes. Chemists are in the business of making tailored molecules with a variety of functions. Some are designed to mimic nature by interacting with biological systems, others act as new medicines like antibiotics, while some can be designed to have new electrical properties suitable for use in flat television screens. The chemical industry is greatly interested in the cutting-edge work being done at Bristol University and a large number of companies are sponsoring the conference. Professor Varinder Aggarwal, the conference organiser, said: "These companies shared with me the vision of bringing together a number of top chemists to provide high quality education and inspiration to a large number of students, academics and industrial chemists."
Nicolas Rivière - Site Perso. nobel. 1987 Donald J. Cram, jean-marie lehn, Charles J. Pedersen1935 Frédéric Joliot, Irène Joliot-Curie 1912 Victor Grignard, Paul http://www.nriv.free.fr/sciences/dossiers/nobel/nobelfr.htm
Nobel Prizes In Chemistry http//www.chem.yorku.ca/NAMED/. nobel PRIZE CHEMISTRY. YEAR. NAMES OF SCIENTISTS.NATIONALITY. TYPE OF CHEMISTRY. organic. 1987. jeanmarie lehn. French. organic.1987. http://www.chem.yorku.ca/NAMED/NOBEL/CHEM/
Extractions: 4700 Keele Street, Toronto, ONTARIO M3J 1P3, CANADA For suggestions, corrections, additional information, and comments please send e-mails to jandraos@yorku.ca http://www.chem.yorku.ca/NAMED/ NOBEL PRIZE CHEMISTRY YEAR NAMES OF SCIENTISTS NATIONALITY TYPE OF CHEMISTRY Jacobus van't Hoff Dutch physical Emil Fischer German organic Svante Arrhenius Swedish physical Sir William Ramsay British physical Adolf von Baeyer German organic Henri Moissan French inorganic Eduard Buchner German organic/bioorganic Lord Ernest Rutherford British nuclear Wilhelm Ostwald Latvian physical Otto Wallach German organic Marie Curie Polish-French nuclear Victor Grignard French organic Paul Sabatier French organic Alfred Werner German inorganic Theodore Williams Richards American physical Richard Martin Willstatter German organic no prize awarded no prize awarded Fritz Haber German physical/industrial no prize awarded Walther Hermann Nernst German physical Frederick Soddy British nuclear Francis William Aston British analytical Fritz Pregl Slovenian analytical no prize awarded Richard Zsigmondy Austrian physical Theodor Svedberg Swedish physical Heinrich Wieland German organic Adolf Windaus German organic Hans von Euler-Chelpin German bioorganic Arthur Harden British bioorganic Hans Fischer German bioorganic Friedrich Bergius German physical Carl Bosch German physical Irving Langmuir American physical no prize awarded Harold Urey American nuclear Frederic Joliot French nuclear Irene Joliot-Curie French nuclear Peter Debye Dutch physical Sir Walter Haworth
"Nobel Cause..." Translate this page C'est dans un tel esprit que je me rendai a la conference de jean-marie lehn,prix nobel de Chimie 1987, jeudi dernier, a Beida (Beijing University). http://www.eleves.ens.fr/home/jleroux/stage/221001.html
Extractions: A la fin de la conf', et apres avoir constate amerement le vol de mon 2eme velo, diner-buffet en l'honneur de J-M Lehn, l'occasion de discuter avec S.E.M. L'Ambassadeur (dont le fils est normalien B/L 99, collegue de cours de chinois) et M. Ruget, en particulier sur l'ouverture de l'ecole ala Chine et a l'etranger en general. La soiree n'etait pas terminee, puisqu'une colllegue du labo me ramenait en voiture, mais pas n'importe quelle voiture: une TWINGO!! Vous en pouvez pas savoir le choc que ca m'a fait de voir une Twingo a Pekin! J'ai appris qu'il n'y en avait en fait que 15 en Chine, je peux frimer a mort maintenant... Outre ces activites peu ordinaires, les evenements importants de la semaine sont la fixation de la date de deaprt de Lawrence au Japon, jeudi prochain! Une soiree chez nous vendredi soir, sympa. Et un concert de Punk asamedi soir, avec des vrais groupes bien violents, quasiment que des chinois dans la salle, qui se trouve au milieu de nulle part si ce n'est un champ de boue, et un guitariste jouant avec le masque de Scream... L'occasion de retrouver un peu de notre adolescence le temps de quelques Po-Go (j'ai encore mal au doigt...). Dejeuner hier au Den avec Lawrence et un ami a lui islandais, qui est en pourparlers pour faire venir Sigur Ros (OUI! Un de mes groupes preferes!!) a Pekin, ce serait trop fort. J'ai sa carte, au cas ou je pourrais peut-etre avoir des backstages... comment ca opportuniste? Vous ne savez vraiment pas ce que sont les Guanxi en Chine (relations...).
Nobel Prize In Chemistry - Wikipedia http//www.nobel.se/chemistry/laureates/index.html. Karle 1986 Dudley R. Herschbach,Yuan T. Lee, John C. Polanyi 1987 Donald J. Cram, jeanmarie lehn, Charles J http://www.wikipedia.org/wiki/Nobel_Prize/Chemistry
Extractions: Main Page Recent changes Edit this page Page history Special pages Set my user preferences My watchlist Recently updated pages Upload image files Image list Registered users Site statistics Random article Orphaned articles Orphaned images Popular articles Most wanted articles Short articles Long articles Newly created articles Interlanguage links All pages by title Blocked IP addresses Maintenance page External book sources Printable version Talk
ASME Publications It should become a source of inspiration as well as of information for a very widerange of scientists. Professor jeanmarie lehn, nobel Prize Laureate in http://www.asme.org/newrelease/nanoenc.html
Extractions: is the World's first encyclopedia ever published in the field of nanotechnology. The 10-volume Encyclopedia is an unprecedented single reference source that provides ideal introduction and overview of most recent advances and emerging new aspects of nanotechnology spanning science, engineering, and medicine. Although there are many books/handbook and journals focused on nanotechnology, no encyclopedic reference work has been published covering all aspects of nanoscale science and technology dealing with materials synthesis, processing, fabrication, probes, spectroscopy, physical properties, electronics, optics, mechanics, biotechnology, devices, etc.
CNRS Gold Medalists From 1954 To 2002 Translate this page 1982, Pierre JOLIOT. 1981, jean-marie lehn (nobel Prize in Physics, 1987).Roland MARTIN. 1980, Pierre-Gilles de GENNES (nobel Prize in Physics, 1991). http://www.cnrs.fr/cw/en/nomi/prix/Or95/listeMedOr.html
Extractions: CNRS Gold Medalists from 1954 to 2002 Claude LORIUS and Jean JOUZEL Maurice GODELIER Michel LAZDUNSKI Jean-Claude RISSET Pierre POTIER ... Claude COHEN-TANNOUDJI (Nobel Prize in Physics, 1997) Claude HAGEGE Claude ALLEGRE Pierre BOURDIEU Jean-Pierre CHANGEUX Jacques LE GOFF Marc JULIA Michel JOUVET Philippe NOZIERES Georges CANGUILHEM Jean-Pierre SERRE (Fields Medal, 1954) Nicole LE DOUARIN Piotr SLONIMSKI Jean BROSSEL Jean-Pierre VERNANT Evry SCHATZMAN Pierre JOLIOT Jean-Marie LEHN (Nobel Prize in Physics, 1987) Roland MARTIN Pierre-Gilles de GENNES (Nobel Prize in Physics, 1991) Pierre CHAMBON Maurice ALLAIS (Nobel Prize in Economics, 1988) Pierre JACQUINOT Charles FEHRENBACH Henri CARTAN Raymond CASTAING Christiane DESROCHES-NOBLECOURT Edgar LEDERER Jacques OUDIN Bernard HALPERN Jacques FRIEDEL Georges CHAUDRON Boris EPHRUSSI Claude LEVI-STRAUSS Paul PASCAL Louis NEEL (Nobel Prize in Physics, 1970)
Extractions: CNRS EDITIONS a édité le 1 er jeu de société dans le domaine de la Chimie. De l'acétaldéhyde à la zingerone, en passant par le glucose, l'éthanol et la vitamine C, sans oublier la vanilline, ce sont quelques 105 molécules que le jeu Moleko nous propose de construire, en jonglant avec près de 600 atomes et liaisons. La chimie est ainsi à l'honneur et au coeur de ce nouveau jeu de société, scientifique et à caractère éducatif, développé à l'Université Louis Pasteur (ULP) de Strasbourg sur une idée de Jean-Marie LEHN (Laboratoire de chimie supramoléculaire, ULP-CNRS, Strasbourg), et édité par CNRS EDITIONS. * Professeur au Collège de France, Médaille d'Or du CNRS, Prix Nobel de Chimie. Moleko s'adresse à tous, aucune connaissance préalable n'étant nécessaire. Il a été conçu avec des pédagogues et testé par des enfants qui, dès 10 ans, peuvent y jouer. La partie dure environ une heure ; 2, 3 ou 4 personnes peuvent y prendre part. Il s'agit de collecter des atomes et des liaisons pour fabriquer à l'aide des formules, des molécules-cibles, et ainsi de découvrir, en jouant, le secret des structures moléculaires.