Hyperbranched Polymers: Macromolecules in Between Deterministic Linear Chains and Dendrimer Structures Contributor(s): Lederer, Albena (Author), Burchard, Walther (Author) |
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ISBN: 1849733945 ISBN-13: 9781849733946 Publisher: Royal Society of Chemistry OUR PRICE: $198.55 Product Type: Hardcover - Other Formats Published: September 2015 |
Additional Information |
BISAC Categories: - Science | Chemistry - Organic - Technology & Engineering | Textiles & Polymers - Science | Chemistry - Industrial & Technical |
Dewey: 547.7 |
Series: Rsc Polymer Chemistry |
Physical Information: 1" H x 6.3" W x 9.5" (1.40 lbs) 297 pages |
Descriptions, Reviews, Etc. |
Publisher Description: This is the first book to examine in detail the recent advances in the structural characterization of hyperbranched polymers. Due to the commercial interest in hyperbranched polymers and the difficulty in characterization there is a great need to understand how to control their synthesis to obtain certain material properties. Focusing on the on the structural characterization of hyperbranched polymers, the book summarizes the research in the field and makes a direct correlation between the chemical structure and global molecular properties. Written by acknowledged experts in the field, the book will appeal to both scientists working in fundamental research, both active and new to the field, as well as industrial manufacturers of polymer formulations, additives and coatings, polymer electronics and pharmaceuticals. |
Contributor Bio(s): Lederer, Albena: - Albena Lederer obtained her PhD in 1999 from the University of Mainz after her research in the field of physical chemistry of polymers at Max-Planck-Institute of Polymer Research Mainz. Since 2000 she is extensively investigating the physico-chemical properties of branched macromolecules. Since 2007 Albena Lederer is leader of the Polymer separation group at the Leibniz-Institute of Polymer Research Dresden. To her main research area belong the characterization of dendritic and multifunctional polymers in solution and the development of new separation methods for branched polymers. |