Glycopolymer Code
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Glycopolymers are important for cell signalling, recognition pathways, and their role in the immune system. They are gaining attention for new applications in tissue engineering and drug delivery. Glycopolymer Code discusses the preparation, characterization and applications of glycopolymers providing a complete overview of the topic with examples from the latest research. Specific chapters cover both basic and advanced synthesis techniques to prepare glycopolymers, the analytical techniques used to investigate lectin receptor glycopolymer interactions, the properties and types of lectins that…mehr

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Produktbeschreibung
Glycopolymers are important for cell signalling, recognition pathways, and their role in the immune system. They are gaining attention for new applications in tissue engineering and drug delivery. Glycopolymer Code discusses the preparation, characterization and applications of glycopolymers providing a complete overview of the topic with examples from the latest research. Specific chapters cover both basic and advanced synthesis techniques to prepare glycopolymers, the analytical techniques used to investigate lectin receptor glycopolymer interactions, the properties and types of lectins that are widely used to understand the multivalent interactions and various applications of synthetic glycopolymers. With contributions from leading researchers in the field, the book is a unique source for graduates and academics new to the subject and already working in the area of glycopolymers.
Autorenporträt
Dr. Becer is currently a senior lecturer in Materials Science at Queen Mary, University of London. He has been working on developing new polymer synthesis techniques and functional materials such as smart polymers, glycopolymers. The latter has been in the focus of Dr. Becer's research in the last five years and he has been published several research and review articles on this topic. Dr. Becer has several collaboration partners working on glycopolymers and has good links with other academics working on this field all around the World. Dr. Hartmann is currently working as an independent Emmy Noether research groupleader at the MPI of Colloids and Interfaces in the Department of Biomolecular Systems (head: Prof. Peter H. Seeberger). Her research interests focus on the synthesis of biomimetic macromolecules and hydrogels combining synthetic scaffolds based on monodisperse, sequence-defined oligo/polymers with biological ligands such as sugars or peptides. She has published a number of papers related to her work on carbohydrate functionalized polymers and has several collaboration partners working in the area of carbohydrate and material research as well as good links with other academics working in this field around the World.