本文作者：alberto-caeiro

Nagoya Medal是万有生命科学振兴国际交流财团于1995年设立，旨在奖励在有机化学领域有杰出贡献的有机化学家。

Nagoya Medal分为金奖和银奖(Nagoya Gold Medal & Nagoya Silver Medal)，金奖授予给国际上知名化学家，奖励他们为有机化学发展突破做出的贡献；而银奖则授予日本国内冉冉升起的新星，既是对他们工作的肯定，也是对他们今后工作的期待。

金奖与银奖的获奖化学家及其代表性工作如下：

Nagoya Gold Medal

1995,岸 義人 Yoshito Kishi(Harvard University, USA). Natural Product Synthesis;

1996,W. Clark Still(Columbia University, USA), Synthetic Receptors for Peptides;

1997,Robert H. Grubbs(California Institute of Technology, USA), Synthesis of Materials and Molecules Using Ruthenium Metathesis Catalysts. (2005 The Nobel Prize);

1998, Henri B. Kagan (University of Paris-Sud, France), Asymmetric Synthesis – Past, Present and Future;

1999,Samuel J. Danishefsky(Columbia University, USA), (a) On the Power of Chemical Synthesis, (b) The Prospects for a Fully Synthetic Anti-Cancer Vaccine;

2000, Manfred T. Reetz (Max-Planck-Institute, Germany), (a) New Concepts in the Area of Asymmetric Catalysis, (b) Evolution in the Test Tube as a Means to Create Enantioselective Enzymes;

2001,Kyriacos C. Nicolaou(Rice University, USA), (a) Total Synthesis in Perspective, (b) The CP-Molecule Synthetic Labyrinth;

2002,Dieter Seebach(ETH Zürich, Switzerland), (a) From Tartaric Acid to TADDOL and Other Diphenylmethanol Derivatives for Enantioselective Syntheses and Beyond, (b) From Poly(β-hydroxybutyrates) (PHB) to β-Peptides Consisting of Homologated Proteinogenic Amino Acids -Chemical and Biological Investigations into a New World;

2003,David A. Evans(Harvard University, USA), (a) Molecular Complexity: Studies in Natural Products Synthesis, (b) Molecular Complexity: Studies in Asymmetric Catalysis;

2004,J. Fraser Stoddart(University of California, Los Angeles, USA), The Nature of Mechanical Bond;

2005,中西 香尔Koji Nakanishi(Columbia University, USA), (a) Ginkgolides and Biolobalide, (b) Bioorganic Studies on Age-Related Macular Degeneration;

2006, Steven V. Ley (University of Cambridge, UK), (a) Natural Product Synthesis: A Stimulus for Discovery, (b) New Tools for Molecule Makers;

2007,Larry E. Overman(University of California, Irvine, USA), (a) Intramolecular Heck Reaction in Natural Products Total Synthesis, (b) Recent Studies in Asymmetric Synthesis;

2008,Barry M. Trost(Stanford University, USA), (a) Self Assembly of Dinuclear Main Group Catalysts for Asymmetric Synthesis, (b) Cycloadditions via TMM-Pd Intermediates: New Strategies for Total Synthesis and Asymmetric Induction;

2009, Jean M. J. Fréchet (University of California, Berkeley, USA), (a) Designing Macromolecules for Chemo- and Immumo-therapy, (b) Functional Macromolecules from Catalysis to Organic Electronics;

2011,Eric N. Jacobsen(Harvard University, USA), (a) The Hydrolytic Kinetic Resolution Reaction, (b) Asymmetric Catalysis with Chiral Hydrogen-Bond Donors;

2012, Paul Knochel (Ludwig-Maximilians-Universität, Germany), (a) Lewis Acid Triggered Reactions of Organometallics, (b) Recent Advances in Cross-Couplings;

2013,Ben L. Feringa(University of Groningen, Nederland), (a) Exploring Chiral Space in Asymmetric Catalysis, (b) Dynamic Molecular Systems, from switches to motors;

2014,John F. Hartwig(University of California, Berkeley, USA), (a) Regioselective Functionalization of Alkyl and Aryl C-H Bonds, (b) Fluoroalkylation and Fluorination;

2015,Stuart Schreiber(Broad Institute and Harvard University, USA), (a) Chemistry towards novel mechanism-of-action (nMoA) compounds in therapeutics discovery, (b) Chemistry and human biology towards cancer therapeutics discovery;

2016,Stephen Buchwald(Massachusettes Institute of Technology, USA), (a) Palladium-Catalyzed Carbon-Heteroatom Bond-Forming Reactions, (b) Cu-Catalyzed Asymmetric Hydrofunctionalization Processes in Organic Synthesis;

2017, E. W. “Bert” Meijer (Eindhoven University of Technology, Nederland), (a) From Groningen to Eindhoven – a personal journey, (b) The non-covalent synthesis of functional supramolecular systems, (c) The amplification of supramolecular chirality;

2018,David W. C. MacMillan(Princeton University, USA), (a) Becoming a chemist and organocatalysis, (b) Photoredox catalysis, fundamentals and early discoveries, (c) Metallophotoredox and bioconjugation.

Nagoya Silver Medal

1999,鈴木　啓介Keisuke Suzuki (Tokyo Institute of Technology), Synthetic Studies on Hybrid Natural Products-Toward Ravidomycin and Pradimicins;

2000,相田　卓三Takuzo Aida (The University of Tokyo), Novel Nanostructured Polymeric Materials;

2001,中村　栄一Eiichi Nakamura (The University of Tokyo), Synthetic Organic Chemistry of Carbon Cluster Complexes– A Challenge for Synthetic Chemists –;

2002,小林　修Shu Kobayashi (The University of Tokyo), Toward Truly Efficient and Powerful Organic Synthesis;

2003,藤田　誠Makoto Fujita (The University of Tokyo), Molecular Self-Assembly through Coordination;

2004 丸岡　啓二Keiji Maruoka (Kyoto University), Chiral Designer Phase Transfer Catalysts for Practical Asymmetric Synthesis;

2005, 杉野目　道紀Michinori Suginome (Kyoto University), New Boron-and Silicon-Based Reactions for Organic Synthesis;

2006, 吉田　潤一Junichi Yoshida (Kyoto University), Flash Chemistry: Fast Chemical Synthesis in Microsystems;

2007, 袖岡　幹子Mikiko Sodeoka (RIKEN), Bioactive Molecules : Methodology, Synthesis, and Chemical Biology;

2008, 村上　正浩Masahiro Murakami (Kyoto University), Carbon-Carbon Bond Forming and Cleaving Reactions by Rhodium Catalysis;

2009, 野崎　京子Kyoko Nozaki (The University of Tokyo), Ligand Design for Metal-catalyzed Polymerization of Polar Monomers;

2011, 谷野　圭持Keiji Tanino (Hokkaido University), Design, Tactics, and Findings in Natural Product Synthesis;

2012,秋山　隆彦Takahiko Akiyama (Gakushuin University), Control of Stereochemistry by Chiral Brønsted Acid Catalyst;

2012,寺田　眞浩Masahiro Terada (Tohoku University), Enantioselective Catalysis by Chiral Brønsted Acids and Bases;

2013, 茶谷　直人Naoto Chatani (Osaka University), New Chelation-Assisted Transformation of C-H Bonds;

2014,浜地　格Itaru Hamachi (Kyoto University), Protein organic chemistry under live cell conditions;

2015,侯 召民Zhaomin Hou (RIKEN), Rare Earth and Group 4 Metal Complexes for Novel Chemical Transformations;

2016, 澤村正也Masaya Sawamura (Hokkaido University), Ligand Design for Efficient Organic Synthesis;

2017, 菅裕明Hiroaki Suga (The University of Tokyo), Revolutionizing the discovery process of bioactive peptides;

2018,安達　千波矢Chihaya Adachi (Kyushu University), Advanced Molecular Design in Organic Semiconductors: Towards New Generation of OLEDs and Organic Lasers.

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