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Opens the door to the sustainable production of pharmaceuticals and fine chemicals
Driven by both public demand and government regulations, pharmaceutical and fine chemical manufacturers are increasingly seeking to replace stoichiometric reagents used in synthetic transformations with catalytic routes in order to develop greener, safer, and more cost-effective chemical processes. This book supports the discovery, development, and implementation of new catalytic methodologies on a process scale, opening the door to the sustainable production of pharmaceuticals and fine chemicals.
Pairing contributions from leading academic and industrial researchers, Sustainable Catalysis focuses on key areas that are particularly important for the fine chemical and pharmaceutical industries, including chemo-, bio-, and organo-catalytic approaches to C–H, C–N, and C–C bond-forming reactions. Chapters include academic overviews of current innovations and industrial case studies at the process scale, providing new insights into green catalytic methodologies from proof-of-concept to their applications in the synthesis of target organic molecules.
Sustainable Catalysis provides the foundation needed to develop sustainable green synthetic procedures, with coverage of such emerging topics as:
Catalytic reduction of amides avoiding LiAlH4 or B2H6
Synthesis of chiral amines using transaminases
Industrial applications of boric acid and boronic acid catalyzed direct amidation reactions
C–H activation of heteroaromatics
Organocatalysis for asymmetric synthesis
Offering a balanced perspective on current limitations, challenges, and solutions, Sustainable Catalysis is recommended for synthetic organic chemists seeking to develop new methodologies and for industrial chemists dedicated to large-scale process development.
Synopsis:
Covering key areas that are particularly important for the fine chemical and pharmaceutical industries, this book highlights current challenges and encourages greater research into green organic synthesis and catalytic methodology. It uniquely unites academic and industrial contributors for a balanced treatment of current innovations from academia and case studies from industry practice. For each reaction, a description of the current state-of-art is provided, including the scope and limitations, then illustrated with examples. This offers organic and process chemists an invaluable reference for applying key reactions in sustainable catalysis.
PETER J. DUNN, PhD, is Global Green Chemistry Lead for Pfizer. Dr. Dunn has played a key role in the development of commercial processes to make several drugs, including Viagra™, Emselex™, Revatio™, and Sampatrilat.
K. K. (MIMI) HII, PhD, holds a Readership in Catalysis in the Department of Chemistry at Imperial College London. Her research focuses on the development of sustainable catalytic processes for organic synthesis.
MICHAEL J. KRISCHE, PhD, is Director of the Center for Green Chemistry and Catalysis and Robert A. Welch Chair in Science at The University of Texas at Austin. He is the recipient of the Tetrahedron Young Investigator Award, Humboldt Prize, Presidential Green Chemistry Challenge Award, and ACS Elias J. Corey Award.
MICHAEL T. WILLIAMS, PhD, is an independent consultant. Previously, he was an executive director at Pfizer and played a key role in the development and commercialization of many drugs, including Zoloft™, Viagra™, and Relpax™.
Chapter 1: Catalytic Reduction of Amides Avoiding LiAlH4 or B2H6 Deborah L. Dodds and David J. Cole-Hamilton
Chapter 2: Hydrogenation of Esters Lionel A. Saudan
Chapter 3: Synthesis of Chiral Amines using Transaminases Nicholas J. Turner and Matthew D. Truppo
Chapter 4: Development of a Sitagliptin Transaminase Jacob M. Janey
Chapter 5: Direct Amide Formation Avoiding Poor Atom Economy Reagents Benjamin M. Monks and Andrew Whiting
Chapter 6: Industrial Applications of Boric Acid and Boronic Acid Catalyzed Direct Amidation Reactions Joanne E. Anderson, Jannine Cobb, Roman Davis, Peter J. Dunn, Russ N. Fitzgerald, and Alan J. Pettman
Chapter 7: OH Activation for Nucleophilic Substitution Jonathan M J Williams
Chapter 8: Application of a Redox-Neutral Alcohol Amination in the Kilogram-Scale Synthesis of a GlyT1 Inhibitor Martin A. Berliner
Chapter 9: Olefin Metathesis: from Academic Concepts to Commercial Catalysts Justyna Czaban, Christian Torborg, and Karol Grela
Chapter 10: Challenge and Opportunity in Scaling-up Metathesis Reaction, Synthesis of Ciluprevir (BILN 2061) Nathan Yee, Xudong Wei, and Chris Senanayake
Chapter 11: C–H Activation of Heteroaromatics Koji Hirano and Masahiro Miura
Chapter 12: The Discovery of a New Pd/Cu Catalytic System for C-H Arylation and Its Applications in a Pharmaceutical Process Jinkun Huang, Xiang Wang, and Johann Chan
Chapter 13: Diarylprolinol Silyl Ethers: Development and Application as Organocatalysts Hiroaki Gotohx and Yujiro Hayashi
Chapter 14: Organocatalysis for Asymmetric Synthesis: From Lab to Factory Feng Xu
Chapter 15: Catalytic Variants of Phosphine Oxide-Mediated Organic Transformations Stephen P. Marsden
Chapter 16: Formation of C-C Bonds via Catalytic Hydrogenation and Transfer Hydrogenation Joseph Moran and Michael J. Krische
Sustainable Catalysis: Challenges and Practices for the Pharmaceutical and Fine Chemical Industries
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Peter J. (edt) Dunn
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440 pages
John Wiley & Sons -
English9781118155424
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"Synopsis"
by Wiley,
Covering key areas that are particularly important for the fine chemical and pharmaceutical industries, this book highlights current challenges and encourages greater research into green organic synthesis and catalytic methodology. It uniquely unites academic and industrial contributors for a balanced treatment of current innovations from academia and case studies from industry practice. For each reaction, a description of the current state-of-art is provided, including the scope and limitations, then illustrated with examples. This offers organic and process chemists an invaluable reference for applying key reactions in sustainable catalysis.
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