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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
This thesis describes the design, synthesis, and some new applications of aqueous microgels. One research objective was to prepare lanthanide-containing microgels which are resistant to lanthanide ion leaching in aqueous media and can be used in bead-based assays. I report the synthesis of lanthanide phosphate (LnPO4) nanocrystals embedded in poly(NIPAM/VCL/MAA) copolymer microgels. Here the microgels were first ion-exchanged with Ln3+ and then treated with PBS buffer to form LnPO4 crystals. The TEM images of the TbPO4-containing microgels in combination with SAXS studies show remarkable needle-like nanocrystals distributed throughout the microgel. Mass cytometry studies showed that these microgels resist ion leaching in different buffers. Another direction in my Ph.D. research was to design and synthesize temperature-invariant aqueous microgels that would preserve their dimensions and colloidal stability upon heating in water, and can serve as a host for enzymes in high-temperature reactions. For this purpose, I prepared poly(N-hydroxyethyl acrylamide) (PHEAA) microgels through a two-step synthesis. First, I prepared a precursor particle of poly[di(ethylene glycol) acrylate] in water, and then, these particles were subjected to aminolysis in dioxane with a mixture of ethanolamine and ethylenediamine to form to PHEAA-NH2 microgels. As a proof-of-concept study, I attached the enzyme horseradish peroxidase (HRP) to the microgels. Kinetic studies showed that immobilization led to improved enzyme stability at high temperatures compared to the native enzyme. I also examined the effect of the thermal response of microgels on the activity of enzymes. I prepared the thermo-responsive poly[oligo(ethylene glycol) methacrylate] (PEGMA) microgels and attached aminotetraethyleneglycol pendant groups to these microgels to act as a spacer and to make them biofunctionalizable. I found no discontinuous change in the activity of the immobilized enzyme as the microgel was heated through its VPTT. This study serves a guide for the biofunctionalization of protein repellent PEGMA microgels.
This book review series presents current trends in modern biotechnology. The aim is to cover all aspects of this interdisciplinary technology where knowledge, methods and expertise are required from chemistry, biochemistry, microbiology, genetics, chemical engineering and computer science. Volumes are organized topically and provide a comprehensive discussion of developments in the respective field over the past 3-5 years. The series also discusses new discoveries and applications. Special volumes are dedicated to selected topics which focus on new biotechnological products and new processes for their synthesis and purification. In general, special volumes are edited by well-known guest editors. The series editor and publisher will however always be pleased to receive suggestions and supplementary information. Manuscripts are accepted in English.
Named after the two-faced roman god, Janus particles have gained much attention due to their potential in a variety of applications, including drug delivery. This is the first book devoted to Janus particles and covers their methods of synthesis, how these particles self-assemble, and their possible uses. By following the line of synthesis, self-assembly and applications, the book not only covers the fundamental and applied aspects, but it goes beyond a simple summary and offers a logistic way of selecting the proper synthetic route for Janus particles for certain applications. Written by pioneering experts in the field, the book introduces the Janus concept to those new to the topic and highlights the most recent research progress on the topic for those active in the field and catalyze new ideas.
This book is a printed edition of the Special Issue "Stimuli-Responsive Gels" that was published in Gels
Lipid Modification of Proteins: A Practical Approach is a unique guide to the latest methods is use, written by the acknowledged experts in the field. Detailed protocols are provided for all the key techniques, and the relevant background material is included. This book is an essential manual for a wide range of scientists studying the modification of protein by lipids, including membrane and protein biochemists, cell biologists, immunologists, bacteriologists, parasitologists, and virologists.
Global warming, pollution, food shortage, security, and health care are major issues facing us and our planet. These global challenges have inspired scientists and engineers to design materials, processes, and enabling tools that mimic nature and are less intrusive. The aim of the Handbook of Biomimetics and Bioinspiration is to serve as a reference on synthesis, modification, assembly, packaging, transportation, targeting, and recognition at their destination, conservation of information and response to foreign invadors, the creation of a dynamic living system from these assemblies, and the use of the principles governing biological systems for creating novel biomimetic systems. Presented in a set of three volumes, this handbook covers biomimetics and bioinspiration within the scope of materials, mechanics, dynamics, transport, chemical reactions, control, recognition, and informatics.
Spanning the entire field from fundamentals to applications in material science, this one-stop source is the first comprehensive reference for polymer, physical and surface chemists, materials scientists, chemical engineers, and those chemists working in industry. From the contents: * Introduction: Living Free Radical Polymerization and the RAFT Process * Fundamental Structure-Reactivity Correlations Governing the RAFT Process * Mechanism and Kinetics * The RAFT Process as a Kinetic Tool * Theory and Practice in Technical Applications * RAFT Polymerization in Bulk and Organic Solvents, as well as Homogeneous Aqueous Systems * Emulsion and Mini-Emulsion Polymerization * Complex Architecture Design * Macromolecular Design via the Interchange of Xanthates * Surface Modification * Stability and Physical Properties of RAFT Polymers * Novel Materials: From Drug Delivery to Opto-Electronics * Outlook and Future Developments
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.