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Microgels by Precipitation Polymerization: Synthesis, Characterization, and Functionalization, by A. Pich and W. Richtering * Hydrogels in Miniemulsions, by K. Landfester and A. Musyanovych * Nano- and Microgels Through Addition Reactions of Functional Oligomers and Polymers, by K. Albrecht, M. Moeller, and J. Groll * Synthesis of Microgels by Radiation Methods, by F. Krahl and K.-F. Arndt * Microgels as Nanoreactors: Applications in Catalysis, by N. Welsch, M.s Ballauff, and Y. Lu
Providing a vital link between chemistry and physics on the nanoscale, this book offers concise coverage of the entire topic in five major sections, beginning with synthesis of microgel particles and continuing with their physical properties. The phase behavior and dynamics of resulting microgel suspensions feature in the third section, followed by their mechanical properties. It concludes with detailed accounts of numerous industrial, commercial and medical applications. Edited by David Weitz, Professor at Harvard and one of the world's pre-eminent experts in the field.
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Since the turn of the last century, significant advances have been documented in the literature on the design and engineering of microgels. Specialized reviews, each covering only a specific aspect of microgel development, are available; however, works that provide a comprehensive overview of the recent status of microgel research can hardly been found. The latter is important to the field as it can offer a broad view of the current situation and the possibilities for future microgel research. The objective of this book is to fill this gap by presenting a snapshot of the latest advances in the synthesis, characterization and applications of microgels. This book consists of three sections. The first section aims at providing an overview of the latest status of microgel research. Concepts in the current understandings of microgel fabrication and characterisation will be discussed. The second section is devoted to exploiting microgel properties and engineering techniques. The development of a diversity of gel systems, ranging from stimuli-responsive microgels and noncovalent crosslinking microgels to phenol formaldehyde-based aerogels, will be reviewed. The potential use of electrospray technologies to manipulate the microstructure of microgels will also be exploited. The last section intends to highlight the application potential of microgels, with a special focus on wastewater treatment, drug delivery, tissue engineering, gene delivery, bioimaging, and antifouling. It is hoped that this book will not only lay a foundation of knowledge and terminology to those interested in a future research career in the subject, but can also serve as a reference guide to researchers working in the field in terms of the concepts and techniques relating to microgel development.
This book is based on the Special Issue of the journal Molecules on “Smart and Functional Polymers”. The collected research and review articles focus on the synthesis and characterization of advanced functional polymers, polymers with specific structures and performances, current improvements in advanced polymer-based materials for various applications, and the opportunities and challenges in the future. The topics cover the emerging synthesis and characterization technology of smart polymers, core−shell structure polymers, stimuli-responsive polymers, anhydrous electrorheological materials fabricated from conducting polymers, reversible polymerization systems, and biomedical polymers for drug delivery and disease theranostics. In summary, this book provides a comprehensive overview of the latest synthesis approaches, representative structures and performances, and various applications of smart and functional polymers. It will serve as a useful reference for all researchers and readers interested in polymer sciences and technologies.
Smart Stimuli-Responsive Poymers, Films, and Gels Discover the most important developments in synthesis, simulation, and applications of a fascinating compound class There exist a range of natural materials that respond to environmental changes by altering their physical or chemical properties, known as stimuli-responsive polymers, these substances are responsive to light, temperature, pressure, and more. The study of these so-called “smart” polymers is essential to a range of application fields, many of which have generated cutting-edge research in recent decades. A comprehensive introduction to the subject is therefore well-timed Smart Stimuli-Responsive Polymers, Films, and Gels provides an introduction to these polymers and their applications. It includes producing these polymers through synthetic approaches, simulating their responses to different stimuli, and applying these materials in different industries and research capacities. Written to serve the requirements of advanced students and senior researchers alike, this timely work will drive years of research in this vital field. In Smart Stimuli-Responsive Polymers, Films, and Gels readers will also find: Treatment of mechanoresponsive, photoresponsive, and ionizing-radiation responsive polymers Applications in emerging fields such as sensors, biomedicine, catalysis, and more Interdisciplinary research into the properties and responses of these vital compounds Smart Stimuli-Responsive Polymers, Films, and Gels promises to become a seminal work for chemists, materials scientists, and industrial researchers seeking to incorporate these materials into a variety of industrial and research areas.
Biomedical Engineering An exploration of materials processing and engineering technology across a wide range of medical applications The field of biomedical engineering has played a vital role in the progression of medical development technology. Biomedical Engineering: Materials, Technology, and Applications covers key aspects of the field—from basic concepts to advanced level research for medical applications. The book stands as a source of inspiration for research on materials as well as their development and practical application within specialized industries. It begins with a discussion of what biomedical engineering is and concludes with a final chapter on the advancements of biomaterials technology in medicine. Offers comprehensive coverage of topics, including biomaterials, tissue engineering, bioreceptor interactions, and various medical applications Discusses applications in critical industries such as biomedical diagnosis, pharmaceutics, drug delivery, cancer detection, and more Serves as a reference for those in scientific, medical, and academic fields Biomedical Engineering takes an interdisciplinary look at how biomedical science and engineering technology are integral to developing novel approaches to major problems, such as those associated with disease diagnosis and drug delivery. By covering a full range of materials processing and technology-related subjects, it shares timely information for biotechnologists, material scientists, biophysicists, chemists, bioengineers, nanotechnologists, and medical researchers.
Diese Enzyklopädie konzentriert sich einzig und allein auf Biokolloide und Biogrenzflächen. Hauptthema sind nicht die wissenschaftlichen Aspekte rund um Kolloide und Grenzflächen. Mit Biokolloiden und Biogrenzflächen beschäftigen sich immer mehr Wissenschaftler, und in dieser Enzyklopädie werden zur Untersuchung von Phänomen in biologischen Systemen "weiche Partikel" und "weiche Grenzflächen" als Oberflächenmodelle herangezogen. - Beschreibt detailliert die grundlegenden Theorien und erläutert die physikalisch-chemischen und theoretischen Aspekte der Biokolloid- und Biogrenzflächenwissenschaft. - Beinhaltet auch eine ausführliche Beschreibung der weichen Grenzflächen und Oberflächen - Beschäftigt sich ebenfalls mit Anwendungen der Grundlagentheorien von Biokolloiden und Biogrenzflächen auf die Nano-, Bio- und Umweltwissenschaften. Ein nützliches Nachschlagewerk genau zur richtigen Zeit, für Forscher und Absolventen im Bereich der Biokolloid- und Biogrenzflächenwissenschaft sowie für Ingenieure der Fachrichtungen.
The studies on Biohydrogels have had a rapid, exponential evolution in the last decades. This book is the result of an International conference gathering the most recent results in this field.
This book is a printed edition of the Special Issue "Host-Guest Polymer Complexes" that was published in Polymers