Reagents for High-Throughput Solid-Phase and Solution-Phase Organic Synthesis (Handbook of Reagents for Organic Synthesis) - Hardcover

About the Author

Jonathan A. Ellman is Eugene Higgins Professor of Chemistry at Yale University. He received his B.S. in Chemistry from MIT and his PhD in Organic Chemistry from Harvard University. His research efforts are focused on the development of efficient, systematic chemical tools to establish protein function through the design and synthesis of small molecule libraries targeting protein families, methods for the asymmetric synthesis of amines, and the development of synthetic applications of C-H activation.

From the Back Cover

Handbook of Reagents for Organic Synthesis

Reagents for High-Throughput Solid-Phase and Solution-Phase Organic Synthesis

The impact of high-throughput solid-phase and solution-phase organic synthesis methods on the generation of large numbers of compounds for high-throughput screening (HTS) is undisputed. The need for generating structurally and functionally novel compounds continually fuels the search for new technologies that enhance combinatorial library generation. From their origins in Merrifield peptide synthesis, parallel synthesis, and automated synthesis, and in response to the need for an efficient purification of organic molecules, all the strategies and tactics of modern organic synthesis have continued to evolve and develop. The current methods for library generation include parallel solution and solid phase synthesis or a combination of both, split-and-mix synthesis, as well as diversity-oriented synthesis.

This volume combines solid supports, linkers, scavengers, coupling and polymer-supported, fluorous and polymeric reagents that are of particular significance in streamlined organic synthesis. Medicinal, polymer, peptide and combinatorial chemists will find this unified resource of relevant reagents and techniques particularly beneficial for their work.

All the information compiled in this volume is also available in electronic format on Wiley InterScience. The electronic Encyclopedia of Reagents for Organic Synthesis (e-EROS) includes all the reagents described in this volume plus many more reagents of other types and for other uses. e-EROS allows for both text and structure searches and has many new and updated entries added every year.

From the Inside Flap

Handbook of Reagents for Organic Synthesis

Reagents for High-Throughput Solid-Phase and Solution-Phase Organic Synthesis

The impact of high-throughput solid-phase and solution-phase organic synthesis methods on the generation of large numbers of compounds for high-throughput screening (HTS) is undisputed. The need for generating structurally and functionally novel compounds continually fuels the search for new technologies that enhance combinatorial library generation. From their origins in Merrifield peptide synthesis, parallel synthesis, and automated synthesis, and in response to the need for an efficient purification of organic molecules, all the strategies and tactics of modern organic synthesis have continued to evolve and develop. The current methods for library generation include parallel solution and solid phase synthesis or a combination of both, split-and-mix synthesis, as well as diversity-oriented synthesis.

This volume combines solid supports, linkers, scavengers, coupling and polymer-supported, fluorous and polymeric reagents that are of particular significance in streamlined organic synthesis. Medicinal, polymer, peptide and combinatorial chemists will find this unified resource of relevant reagents and techniques particularly beneficial for their work.

All the information compiled in this volume is also available in electronic format on Wiley InterScience. The electronic Encyclopedia of Reagents for Organic Synthesis (e-EROS) includes all the reagents described in this volume plus many more reagents of other types and for other uses. e-EROS allows for both text and structure searches and has many new and updated entries added every year.