Handbook Of Metathesis Catalyst Development Robert H Grubbs by Robert H. Grubbs 9783527306169, 9783527619481, 3527306161, 3527619488 instant download after payment.
There is probably no name more closely linked to metathesis than that of Robert H. Grubbs of the California Institute of Technology. His pioneering work has led to the success of this important and fascinating reaction and in this comprehensive three-volume work he presents all its important aspects.
- The standard work on the topic
- The team of authors reads like a "Who's who" of metathesis
- Clearly divided into catalyst developments, organic synthesis applications and polymer synthesis
- A must-have for every organic and polymer chemist
Content:
Chapter 1.1 Introduction (pages 1–3): Robert H. Grubbs
Chapter 1.2 The Role of the “Tebbe Complex” in Olefin Metathesis (pages 4–7): Robert H. Grubbs
Chapter 1.3 The Discovery and Development of High Oxidation State Mo and W Imido Alkylidene Complexes for Alkene Metathesis (pages 8–32): Richard R. Schrock
Chapter 1.4 From Ill?Defined to Well?Defined W Alkylidene Complexes (pages 33–46): Christophe Coperet, Frederic Lefebvre, Jean?Marie Basset and M. Leconte
Chapter 1.5 Fischer Metal Carbenes and Olefin Metathesis (pages 47–60): Thomas J. Katz
Chapter 1.6 The Discovery and Development of Well?Defined, Ruthenium?Based Olefin Metathesis Catalysts (pages 61–85): SonBinh T. Nguyen and Tina M. Trnka
Chapter 1.7 Synthesis of Ruthenium Carbene Complexes (pages 86–94): Warren R. Roper
Chapter 1.8 Synthesis of Rhodium and Ruthenium Carbene Complexes with a 16?Electron Count (pages 95–111): Helmut Werner and Justin Wolf
Chapter 1.9 Mechanism of Ruthenium?Catalyzed Olefin Metathesis Reactions (pages 112–131): Melanie S. Sanford and Jennifer A. Love
Chapter 1.10 Intrinsic Reactivity of Ruthenium Carbenes (pages 132–172): Christian Adlhart and Peter Chen
Chapter 1.11 The Discovery and Development of High Oxidation State Alkylidyne Complexes for Alkyne Metathesis (pages 173–189): Richard R. Schrock
Chapter 1.12 Well?Defined Metallocarbenes and Metallocarbynes Supported on Oxide Supports Prepared via Surface Organometallic Chemistry: A Source of Highly Active Alkane, Alkene, and Alkyne Metathesis Catalysts (pages 190–204): Christophe Coperet, Frederic Lefebvre and Jean?Marie Basset
Chapter 2.1 Olefin Metathesis and Related Reactions in Organic Synthesis: Introduction to Metal?Carbon Double Bonds in Organic Synthesis (pages 1–4): Robert H. Grubbs
Chapter 2.2 General Ring?Closing Metathesis (pages 5–127): So?Yeop Han and Sukbok Chang
Chapter 2.3 Catalytic Asymmetric Olefin Metathesis (pages 128–150): Amir H. Hoveyda
Chapter 2.4 Tandem Ring?Closing Metathesis (pages 151–175): Stefan Randl and Siegfried Blechert
Chapter 2.5 Ene?Yne Metathesis (pages 176–204): Miwako Mori
Chapter 2.6 Ring?Opening Cross?Metatheses (pages 205–237): Thomas O. Schrader and Marc L. Snapper
Chapter 2.7 Ring?Expansion Metathesis Reactions (pages 238–245): Choon Woo Lee
Chapter 2.8 Olefin Cross?Metathesis (pages 246–295): Arnab K. Chatterjee
Chapter 2.9 Olefin Metathesis Strategies in the Synthesis of Biologically Relevant Molecules (pages 296–322): Jennifer A. Love
Chapter 2.9 Vignette 1: The Olefin Metathesis Reaction in Complex Molecule Construction (pages 323–337): K. C. Nicolaou and Scott A. Snyder
Chapter 2.9 Vignette 2: Applications of Ring?Closing Metathesis to Alkaloid Synthesis (pages 338–352): Stephen F. Martin
Chapter 2.9 Vignette 3: Radicicol and the Epothilones: Total Synthesis of Novel Anticancer Agents Using Ring?Closing Metathesis (pages 353–360): Jon T. Njardarson, Robert M. Garbaccio and Samuel J. Danishefsky
Chapter 2.10 The Use of Olefin Metathesis in Combinatorial Chemistry: Supported and Chromatography?Free Syntheses (pages 361–402): Andrew M. Harned, Donald A. Probst and Paul R. Hanson
Chapter 2.11 Metal?Catalyzed Olefin Metathesis in Metal Coordination Spheres (pages 403–431): Eike B. Bauer and J. A. Gladysz
Chapter 2.12 Alkyne Metathesis (pages 432–462): Alois Furstner
Chapter 2.13 Metathesis of Silicon?Containing Olefins (pages 463–490): Bogdan Marciniec and Cezary Pietraszuk
Chapter 2.14 Commercial Applications of Ruthenium Metathesis Processes (pages 491–510): Richard L. Pederson
Chapter 3.1 Introduction (page 1): Robert H. Grubbs
Chapter 3.2 Living Ring?Opening Olefin Metathesis Polymerization (pages 2–71): Grainne Black, Declan Maher and Wilhelm Risse
Chapter 3.3 Synthesis of Copolymers (pages 72–117): Ezat Khosravi
Chapter 3.4 Conjugated Polymers (pages 118–142): W. James Feast
Chapter 3.5 Stereochemistry of Ring?Opening Metathesis Polymerization (pages 143–179): James G. Hamilton
Chapter 3.6 Syntheses and Applications of Bioactive Polymers Generated by Ring?Opening Metathesis Polymerization (pages 180–225): Laura L. Kiessling and Robert M. Owen
Chapter 3.7 Metathesis Polymerization: A Versatile Tool for the Synthesis of Surface?Functionalized Supports and Monolithic Materials (pages 226–254): Michael R. Buchmeiser
Chapter 3.8 Telechelic Polymers from Olefin Metathesis Methodologies (pages 255–282): Christopher W. Bielawski and Marc A. Hillmyer
Chapter 3.9 ADMET Polymerization (pages 283–353): Stephen E. Lehman and Kenneth B. Wagener
Chapter 3.10 Acyclic Diyne Metathesis Utilizing in Situ Transition Metal Catalysts: An Efficient Access to Alkyne?Bridged Polymers (pages 354–374): Uwe H. F. Bunz and K. Peter C. Vollhardt
Chapter 3.11 Polymerization of Substituted Acetylenes (pages 375–406): Toshio Masuda and Fumio Sanda
Chapter 3.12 Commercial Applications of Ruthenium Olefin Metathesis Catalysts in Polymer Synthesis (pages 407–418): Mark S. Trimmer
