The Book Copolymers in Nanoscience Investigates All Types of Application for Block Copolymers
Covering all existing and potential uses of polymers in nanotechnology and nanobiotechnology, this book places particular emphasis on block copolymers (BCs). A wide range of applications are reported on, in which the BCs assume numerous roles ranging from tools for the fabrication of other nanomaterials as templates and nanolithographic materials, over structural or functional compnents in nanoparticles, hybrid organic-inorganic materials, nanocomposites and stimuli-sensitive materials, to the direct application of BCs as photonic crystals or conducting materials. Applications of BCs in nanomedicine are also included, with special attention paid to drug delivery systems.
This first book to take a detailed look at one of the key focal points where nanotechnology and polymers meet provides both an introductory view for beginners as well as in-depth knowledge for specialists in the various research areas involved. It investigates all types of application for block copolymers: as tools for fabricating other nanomaterials, as structural components in hybrid materials and nanocomposites, and as functional materials. The multidisciplinary approach covers all stages from chemical synthesis and characterization, presenting applications from physics and chemistry to biology and medicine, such as micro- and nanolithography, membranes, optical labeling, drug delivery, as well as sensory and analytical uses.
About the authors
Massimo Lazzari received his PhD in Macromolecular Chemistry at the University of Torino (Italy) under the supervision of Prof. O. Chiantore. After a two years postdoctoral work with Prof. K. Hatada at the Osaka University (Japan), where he learned the secrets of anionic polymerisation, in 1998 he became assistant professor at the University of Torino, working on the characterisation and degradation of complex polymer systems. After several stays at the University of Santiago de Compostela (Spain), he is actually in the Institute of Technological Investigacions. His current research interests are focused on the synthesis of self-assembling block copolymers, with a special attention on their use as templates and for the hierarchical self-assembly of metal nanoparticles.
Guojun Liu received his Ph.D. degree from the University of Toronto in 1989. After 8 months as a post-doctoral fellow in the University of Toronto, he joined McGill University for another post-doctoral year. He was appointed assistant professor at the University of Calgary in 1990, promoted to associate professor in 1995 and full professor in 1999. Since 2004 he has been serving the Department of Chemistry at Queens University as Tier I (senior) Canada Research Chair in Materials Science. He has published more than 100 papers mostly on block copolymer nanomaterials.
Physico-chemist of formation, Sébastien Lecommandoux has integrated the Centre de Recherche Paul Pascal (group of Professor Françis Hardouin, Bordeaux, France) in 1992 to prepare his Master and his Diploma Thesis in Chemistry and Physics (1996) on Liquid Crystal Polymers. Then, he went to the Material Research Laboratory and the Beckman Institute (University of Illinois at Urbana-Champaign, USA), as a Post-Doc in the group of Professor Samuel I. Stupp, and learned the Art of Supramolecular Chemistry from January to December 1998. He joined the Laboratoire de Chimie des Polymères Organiques (CNRS, University of Bordeaux, France) as Associate Professor in 1998 and became Professor in 2005. He received the Bronze Medal Award from the CNRS in 2004 for the work he did on the self-assembly of polypeptide-based block copolymers. His current research interests mainly focus on macromolecular engineering via block copolymer self-assembly in solution and in bulk, with a special attention on the relation-ship between nanostructures and biological functions.
An Introduction to Block Copolymer Applications: State-of-the-art and Future Developments
Guidelines for Synthesizing Block Copolymers
Block Copolymer Vesicles
Block Copolymer Micelles for Drug Delivery in Nanoscience
Stimuli-responsive Block Copolymer Assemblies
Self-assembly of Linear Polypeptide-based Block Copolymers
Synthesis, Self-assembly and Applications of Polyferrocenylsilane (PFS) Block Copolymers
Supramolecular Block Polymers Containing Metal-Ligand Binding Sites: From Synthesis to Properties
Methods for the Alignment and the Large-scale Ordering of Block Copolymer Morphologies
Block Copolymer Nanofibers and Nanotubes
Nanostructured Carbons from Block Coplymers
Block Copolymers at Interfaces
Block Copolymers as Templates for the Generation of Mesostructured Inorganic Materials
Mesostructured Polymers-Inorganic Hybrid Materials from Blocked Macromolecular Architectures and Nanoparticles
Block Ionomers for Fuel Cell Application
Structure, Properties and Applications of Crystallizable ABA and ABC Triblock Copolymers with Hydrogenated Polybutadiene Blocks
Basic Understanding of Phase Behavior and Structure of Silicone Block Copolymers and Surfactant-Block Copolymer Mixtures
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