Read more
Zusatztext "Overall this book covers many areas which utilise microwave heating technology to enhance one or many aspects of chemical transformations. The text is best suited to postgraduate students and academics with an interest in synthetic methodology and serves as an excellent starting point to flesh out ideas potentially applicable to microwave irradiation. Well worth a read and an excellent addition to any professional library."-Luke C Henderson! Reviews! July 2011! No. 22! Vol 12? valuable for process chemists and should be read by all those thinking about scaling up a microwave reaction or purchasing equipment.- Trevor Laird! Editor! Organic Process Research & DevelopmentThis book is a useful complement to literature reviews and other books on the topic. For those who are interested in green and sustainable chemistry! it is well worth reading. -Wei Zhang! University of Massachusetts! Boston! in Journal of the American Chemical Society Informationen zum Autor Nicholas E. Leadbeater Klappentext With a focus on the fast-growing use of microwave heating as a tool for sustainable chemistry! this text covers an extremely broad range of related topics! emphasizing several currently popular areas. Detailing its use as an enabling technology! especially in organic chemistry! the author cites the key advantages of microwave over conventional heating! including shorter reaction times! higher product yields! and enhanced selectivity. Unlike other books on microwave heatinga "which generally focus on just one particular area! such as organic or medicinal chemistrya "this application-driven text showcases the breadth of scope of microwave heating in preparative chemistry. Zusammenfassung Focusing on the fast-growing use of microwave heating as a tool for sustainable chemistry, this text details its use as an enabling technology, especially in organic chemistry. It cites the key advantages of microwave over conventional heating, including shorter reaction times, higher product yields, and enhanced selectivity. Inhaltsverzeichnis Microwave Heating as a Tool for Sustainable Chemistry: An Introduction. Microwave Heating as a Tool for Organic Synthesis. Microwave Heating as a Tool for Sustainable Polymer Chemistry. Microwave Heating as a Tool for Drug Discovery. Microwave Heating as a Tool for Process Chemistry. Microwave Heating as a Tool for the Undergraduate Organic Chemistry Laboratory. Microwave Heating as a Tool for Inorganic and Organometallic Synthesis. Microwave Heating as a Tool for Materials Chemistry. Microwave Heating as a Tool for the Biosciences. Index. ...
List of contents
Microwave Heating as a Tool for Sustainable Chemistry: An Introduction. Microwave Heating as a Tool for Organic Synthesis. Microwave Heating as a Tool for Sustainable Polymer Chemistry. Microwave Heating as a Tool for Drug Discovery. Microwave Heating as a Tool for Process Chemistry. Microwave Heating as a Tool for the Undergraduate Organic Chemistry Laboratory. Microwave Heating as a Tool for Inorganic and Organometallic Synthesis. Microwave Heating as a Tool for Materials Chemistry. Microwave Heating as a Tool for the Biosciences. Index.
Report
"Overall this book covers many areas which utilise microwave heating technology to enhance one or many aspects of chemical transformations. The text is best suited to postgraduate students and academics with an interest in synthetic methodology and serves as an excellent starting point to flesh out ideas potentially applicable to microwave irradiation. Well worth a read and an excellent addition to any professional library."
-Luke C Henderson, Reviews, July 2011, No. 22, Vol 12
... valuable for process chemists and should be read by all those thinking about scaling up a microwave reaction or purchasing equipment.
- Trevor Laird, Editor, Organic Process Research & Development
This book is a useful complement to literature reviews and other books on the topic. For those who are interested in green and sustainable chemistry, it is well worth reading.
-Wei Zhang, University of Massachusetts, Boston, in Journal of the American Chemical Society
