Polymer Synthesis: Theory and Practice

Polymer Synthesis: Theory and Practice PDF

Author: Dietrich Braun

Publisher: Springer Science & Business Media

Published: 2006-10-14

Total Pages: 401

ISBN-13: 3540268901

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The first English edition of this book was pubUshed in 1971 with the late Prof. Dr. Werner Kern as coauthor. In 1997, for the preparation of the third edition, Prof. Dr. Helmut Ritter joined the team of authors and in 2001 Prof. Dr. Brigitte Voit and Prof. Dr. Matthias Rehahn complemented this team. The change in authors has not altered the basic concept of this 4th edition: again we were not aimed at compiling a comprehensive collection of recipes. In stead, we attempted to reach a broader description of the general methods and techniques for the synthesis, modification, and characterization of macromo- cules, supplemented by 105 selected and detailed experiments and by sufficient theoretical treatment so that no additional textbook be needed in order to under stand the experiments. In addition to the preparative aspects we have also tried to give the reader an impression of the relation of chemical structure and mor phology of polymers to their properties, as well as of areas of their application.

Polymer Synthesis: Theory and Practice

Polymer Synthesis: Theory and Practice PDF

Author: Dietrich Braun

Publisher: Springer Science & Business Media

Published: 2013-06-29

Total Pages: 347

ISBN-13: 3662045737

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This Laboratory Manual contains detailed descriptions for the synthesis and characterization of macromolecules. Around 110 elaborated examples, consisting of descriptions of experiments, as well as sufficient theoretical explanations enable the reader to learn about the syntheses, modification, characterization and properties of polymers including recent developments. All experiments can be conducted with adequate laboratory equipment. Suitable for students in organic and polymer chemistry as well as for chemists in industry who want to acquaint themselves with the theoretical and practical aspects of macromolecular chemistry.

Molecularly Imprinted Polymers (MIPs)

Molecularly Imprinted Polymers (MIPs) PDF

Author: Meenakshi Singh

Publisher: Elsevier

Published: 2023-05-12

Total Pages: 464

ISBN-13: 0323914179

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Molecularly Imprinted Polymers (MIPs): Commercialization Prospects guides the reader through the various steps in the conceptualization, design, preparation and innovative applications of molecularly imprinted polymers while also demystifying the challenges relating to commercialization. Sections cover molecularly imprinted polymers, design, modeling, compositions and material selection. Other sections describe novel methods and discuss the challenges relating to the use of molecularly imprinted polymers in specific application areas. The final chapters of the book explore the current situation in terms of patents and commercialized materials based on MIPs, as well as prospects and possible opportunities. This is a valuable resource for all those with an interest in the development, application, and commercialization of molecularly imprinted polymers, including researchers and advanced students in polymer science, polymer chemistry, nanotechnology, materials science, chemical engineering, and biomedicine, as well as engineers, scientists and R&D professionals with an interest in MIPs for advanced applications. Covers all stages of molecular imprinting, from conceptualization, modeling, and solvent choice, to extraction, monomer composition and miniaturization Offers a unique focus on commercialization, examining the current situation and addressing barriers to further commercialization Includes state-of-the-art, novel approaches for the utilization of biopolymers and their nanoparticles as imprinting matrixes and numerical calculations in the design of MIPs

Bio- and Multifunctional Polymer Architectures

Bio- and Multifunctional Polymer Architectures PDF

Author: Brigitte Voit

Publisher: John Wiley & Sons

Published: 2016-03-09

Total Pages: 336

ISBN-13: 1119192684

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This reference/text addresses concepts and synthetic techniques for the preparation of polymers for state-of-the-art use in biomedicine, synthetic biology, and bionanotechnology.

Biobased Packaging Materials

Biobased Packaging Materials PDF

Author: Shakeel Ahmed

Publisher: Springer Nature

Published: 2024-01-02

Total Pages: 321

ISBN-13: 9819960509

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This book provides a comprehensive and authoritative review of recent developments in bio-based packaging materials along with an array of their industrial applications. It offers an interdisciplinary approach, combining food engineering, polymer science, materials science, and sustainable aspects of bio-based materials with their synthesis, properties, characterization, and applications in packaging materials. The book encloses chapters covering fundamental concepts, manufacturing, properties, characterization, and interaction of bio-based materials. It also discusses topics related to the different usage of bio-based materials, their environmental impact, regulations, safety aspects, circular economy, challenges, and opportunities allied to bio-based materials. It is an essential resource for academicians, researchers, students, and professionals interested in exploring the potential bio-based materials in food packaging.

Synthetic Engineering Materials and Nanotechnology

Synthetic Engineering Materials and Nanotechnology PDF

Author: Ibrahim M. Alarifi

Publisher: Elsevier

Published: 2021-10-21

Total Pages: 356

ISBN-13: 0128242493

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Synthetic Engineering Materials and Nanotechnology covers the latest research and developments of synthetic processes, materials, applications and technologies. In addition, innovations in synthetic engineering materials techniques are analyzed. Each chapter addresses key concepts, properties and applications of important categories of synthetic materials, including metals alloys, polymers, composites, rubbers, oils and foams. Advances in nanomaterials produced by synthetic engineering methods are also considered, including ceramic, carbon, metal oxide, composite, and membrane-derived nanomaterials. The primary synthetic engineering materials techniques covered include thermo-mechanical, chemical, physiochemical, electrochemical, bottom-up, hybrid and biological methods. This book is suitable for early career researchers in academia and R&D in areas such as materials science and engineering, mechanical engineering and chemical engineering. Provides the fundamentals on materials produced through synthetic engineering methods, including their properties, experimental and characterization techniques, and applications Reviews the advances of synthetic engineering methods for nanomaterials applications, including electrospinning, atomic layer deposition, ion implantation, bottom-up, hybrid strategies, and more Includes numerous, real-world examples and case studies to apply the fundamental concepts to experiments and real-world applications

New Methods for Polymer Synthesis

New Methods for Polymer Synthesis PDF

Author: W.J. Mijs

Publisher: Springer Science & Business Media

Published: 2013-06-29

Total Pages: 327

ISBN-13: 148992356X

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The art and science of macromolecular architecture is based on synthesis, analysis, processing, and evaluation of physical properties of polymers. The growing specificity of available synthetic methods and the increasing refinement of analytical and physical analysis are gradually providing a deeper insight into structure-property relationships of polymers, upon which many applications can be based. This book deals with recent methods for polymer synthesis. Those that lead to specific structures have been selected especially. Background, mechanism scope and limitations, and illustrative procedures are given for each method. With this layout the editor hopes that the book will provide a practical guideline, for the synthetic polymer chemist in industry or at a university graduate school, on how to apply the methods in the design of new polymer structures. The editor is grateful to the authors not only for their contributions containing interesting new developments in polymer synthesis, but also for the way they have fitted their text into the general framework of the book. The elegant chemistry described in the following chapters will, it is hoped, inspire more organic chemists to apply their skills to polymer synthesis, where the beauty of organic chemistry in terms of structural control and reactivity may be even more apparent than in the low molecular field.

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