Bio-Inspired Metallo-Supramolecular Polymers for Combined Mechanical Properties PDF Download

Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 20

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Book Description
The development of materials with combined mechanical properties remains a significant challenge in polymer synthesis. The preparation of such materials could potentially impact a wide range of Army applications. In this work, bio-inspired metallo- supramolecular polymers were designed, synthesized, and characterized. We anticipate these polymers will display enhanced mechanical properties due to the presence of intermediate strength metal-ligand bonds present in the polymer backbone, which forms a compacted, modular molecular topology. The 2,6-bisbenzimidazolylpyridine ligand was prepared and incorporated into a model polymer backbone via thiol-ene click chemistry. The resulting polymer was thoroughly characterized by 1H Nuclear Magnetic Resonance (NMR), gel permeation chromatography (GPC), and differential scanning calorimetry (DSC). Binding of the ligand with Zn2+ and Co2+ was studied using ultraviolet/visible (UV/Vis) spectroscopy, which demonstrated a 2:1 ligand-to-metal ratio.

Author: Masayoshi Higuchi
Publisher: Springer Nature
ISBN: 4431568913
Category : Technology & Engineering
Languages : en
Pages : 89

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Book Description
This book introduces the synthesis, electrochemical and photochemical properties, and device applications of metallo-supramolecular polymers, new kinds of polymers synthesized by the complexation of metal ions and organic ditopic ligands. Their electrochemical and photochemical properties are also interesting and much different from conventional organic polymers. The properties come from the electronic intra-chain interaction between the metal ions and the ligands in the polymer chain. In this book, for example, the electrochromism that the Fe(II)-based metallo-supramolecular polymer exhibits is described: the blue color of the polymer film disappears by the electrochemical oxidation of Fe(II) ions to Fe(III) and the colorless film becomes blue again by the electrochemical reduction of Fe(III) to Fe(II). The electrochromism is explained by the disappearance/appearance of the metal-to-ligand charge transfer absorption. The electrochromic properties are applicable to display devices such as electronic paper and smart windows.

Author: Mark Gross Burnworth
Publisher:
ISBN:
Category :
Languages : en
Pages : 204

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Book Description
Supramolecular chemistry has become a rapidly growing field since the Nobel Prize was awarded to the work of Lehn, Pedersen, and Cram in 1987 for their pioneering work on crown ethers and non-covalent host-guest interactions. Metal-ligand interactions represent a particularly useful and well-studied means of preparing supramolecular polymers from telechelic building blocks. This present work focuses on utilizing main-chain metallo-supramolecular polymers or small molecules, based on 2,6-bis(1'-methylbenzimidazolyly)pyridine (Mebip) ligands, to create materials aimed at applications such as light healable polymers, or the detection of chemical warfare agents. With the objective to develop new organic/inorganic hybrid materials, which combine good mechanical properties and other attractive properties with ease of processing, new classes of metallo-supramolecular polymers were explored. The general design approach merged the structure of known polymer systems, for example semiconducting polymers (poly(p-phenylene ethynylene)s) or thermally stable hydrocarbons (poly(p-xylyene)s), with the advantages of a dynamic (reversible) polymerization process, to allow access to materials that are otherwise difficult to process. The new telechelic metallo-supramolecular polymers could be readily solution-processed and represent illustrative examples for metallo-supramolecular polymers with good mechanical properties, while maintaining the properties of parent polymer. Polymers with the ability to repair themselves after sustaining damage are poised to extend the lifetime of materials used in a wide range of applications. Reported here is the development of metallo-supramolecular polymers that can be mended through exposure to light. Upon exposure to ultraviolet light, the metal-ligand motifs are electronically excited and the absorbed energy is converted into heat, causing reversible disengagement of the metal-ligand motif and a temporary reduction in the molecular weight. As a result, defects heal quickly, with high efficiency, and if needed repeatedly. A modular sensory system, for the detection of organophosphates, which utilizes a multi-metal/multi-ligand approach is presented. The sensing scheme relies on fluorescent sensor complexes of Mebip ligands and selected metal ions. Detection of organophosphates is accomplished through competitive coordination of the analyte with the metal. Mixing and matching consciously designed ligands and carefully selected metal ions allows the formation of sensor complexes, which allow organophosphate detection with high selectivity and sensitivity.

Author: Seyedali Monemian
Publisher:
ISBN:
Category : Elastomers
Languages : en
Pages : 275

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Book Description
Synthetic polymers can be designed to meet a particular mechanical criterion, but it is still a challenge to design a polymeric material, which simultaneously exhibits strength and ductility, and elasticity. However, natural materials show exceptional mechanical performance, modulated by composition, environmental triggers, and architecture. One lesson from nature is the combination of weak supramolecular interactions and strong covalent bonds. Understanding of materials, such as the muscle protein titin that exhibits these hierarchical elements, provides inspiration to design polymers with novel mechanics. We explored multiple strategies to develop hierarchical and functional bio-inspired materials: First part of this dissertation focuses on a self-complementary, hydrogen bonding linkage coupled with ultraviolet (UV) crosslinking to design supramolecular elastomers with tunable mechanical response. This interplay of dynamic hydrogen-bonded network and covalently crosslinked network resulted in a range of mechanical performance, controlled via the concentration of hydrogen bonding moieties and the UV curing time. Of particular note, this unique combination dramatically enhanced mechanical response of the UPy-functionalized elastomers, yielding toughness enhancement up to ~200×. In second part of this dissertation, a new class of "supramolecular interpenetrating polymer networks (Supramolecular IPNs)" was introduced where the phase-separated structure of IPNs with dynamic hydrogen-bond forming supramolecular associations and UV cross-linking sites led to materials with both increased extensibility and strength. Fascinatingly, the strong interphase region of the dissimilar networks, along with the dynamic nature of hydrogen bond-forming supramolecular associations yielded up to ~600× enhancement of mechanical toughness. In another effort, the interplay of dynamic hydrogen-bond forming supramolecular associations and phase-segregation - induced by UV crosslinking of pendent vinyl moieties - was exploited to generate vesicles and droplet-decorated vesicles on a submicron scale in model supramolecular IPNs. Of particular note is, these structures were formed in the bulk via combination of thermal activation above order-to-disorder transition (ODT) temperature of supramolecular polymer component and UV-crosslinking induced phase-segregation, without the aid of solvophobic interactions or a dewetting process on the substrate. This facile approach may serve as a platform for the design of self-assembled architectures utilizing dynamic polymeric materials.

Author: Nico Bruns
Publisher: Royal Society of Chemistry
ISBN: 1782624139
Category : Science
Languages : en
Pages : 612

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Book Description
This book will provide a comprehensive review of the large field of bio-inspired polymers and is written and edited by leading experts in the field.

Author: Nico Bruns
Publisher: Royal Society of Chemistry
ISBN: 1782626662
Category : Science
Languages : en
Pages : 613

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Book Description
Many key aspects of life are based on naturally occurring polymers, such as polysaccharides, proteins and DNA. Unsurprisingly, their molecular functionalities, macromolecular structures and material properties are providing inspiration for designing new polymeric materials with specific functions, for example, responsive, adaptive and self-healing materials. Bio-inspired Polymers covers all aspects of the subject, ranging from the synthesis of novel polymers, to structure-property relationships, materials with advanced properties and applications of bio-inspired polymers in such diverse fields as drug delivery, tissue engineering, optical materials and lightweight structural materials. Written and edited by leading experts on the topic, the book provides a comprehensive review and essential graduate level text on bio-inspired polymers for biochemists, materials scientists and chemists working in both industry and academia.

Author: Stefan Kubik
Publisher: John Wiley & Sons
ISBN: 3527344675
Category : Science
Languages : en
Pages : 586

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Book Description
Provides deep insight into the concepts and recent developments in the area of supramolecular chemistry in water Written by experts in their respective field, this comprehensive reference covers various aspects of supramolecular chemistry in water?from fundamental aspects to applications. It provides readers with a basic introduction to the current understanding of the properties of water and how they influence molecular recognition, and examines the different receptor types available in water and the types of substrates that can be bound. It also looks at areas to where they can be applied, such as materials, optical sensing, medicinal imaging, and catalysis. Supramolecular Chemistry in Water offers five major sections that address important topics like water properties, molecular recognition, association and aggregation phenomena, optical detection and imaging, and supramolecular catalysis. It covers chemistry and physical chemistry of water; water-mediated molecular recognition; peptide and protein receptors; nucleotide receptors; carbohydrate receptors; and ion receptors. The book also teaches readers all about coordination compounds; self-assembled polymers and gels; foldamers; vesicles and micelles; and surface-modified nanoparticles. In addition, it provides in-depth information on indicators and optical probes, as well as probes for medical imaging. -Covers, in a timely manner, an emerging area in chemistry that is growing more important every day -Addresses topics such as molecular recognition, aggregation, catalysis, and more -Offers comprehensive coverage of everything from fundamental aspects of supramolecular chemistry in water to its applications -Edited by one of the leading international scientists in the field Supramolecular Chemistry in Water is a one-stop-resource for all polymer chemists, catalytic chemists, biochemists, water chemists, and physical chemists involved in this growing area of research.

Author: Sabu Thomas
Publisher: Elsevier
ISBN: 0128184515
Category : Technology & Engineering
Languages : en
Pages : 546

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Book Description
Self-Healing Polymer-Based Systems presents all aspects of self-healing polymeric materials, offering detailed information on fundamentals, preparation methods, technology, and applications, and drawing on the latest state-of-the-art research. The book begins by introducing self-healing polymeric systems, with a thorough explanation of underlying concepts, challenges, mechanisms, kinetic and thermodynamics, and types of chemistry involved. The second part of the book studies the main categories of self-healing polymeric material, examining elastomer-based, thermoplastic-based, and thermoset-based materials in turn. This is followed by a series of chapters that examine the very latest advances, including nanoparticles, coatings, shape memory, self-healing biomaterials, ionomers, supramolecular polymers, photoinduced and thermally induced self-healing, healing efficiency, life cycle analysis, and characterization. Finally, novel applications are presented and explained. This book serves as an essential resource for academic researchers, scientists, and graduate students in the areas of polymer properties, self-healing materials, polymer science, polymer chemistry, and materials science. In industry, this book contains highly valuable information for R&D professionals, designers, and engineers, who are looking to incorporate self-healing properties in their materials, products, or components. Provides comprehensive coverage of self-healing polymeric materials, covering principles, techniques, and applications Includes the very latest developments in the field, such as the role of nanofillers in healing, life cycle analysis of materials, and shape memory assisted healing Enables the reader to unlock the potential of self-healing polymeric materials for a range of advanced applications

Author: Wolfgang H. Binder
Publisher: John Wiley & Sons
ISBN: 3527670203
Category : Technology & Engineering
Languages : en
Pages : 638

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Book Description
Self-healing is a well-known phenomenon in nature: a broken bone merges after some time and if skin is damaged, the wound will stop bleeding and heals again. This concept can be mimicked in order to create polymeric materials with the ability to regenerate after they have suffered degradation or wear. Already realized applications are used in aerospace engineering, and current research in this fascinating field shows how different self-healing mechanisms proven successful by nature can be adapted to produce even more versatile materials. The book combines the knowledge of an international panel of experts in the field and provides the reader with chemical and physical concepts for self-healing polymers, including aspects of biomimetic processes of healing in nature. It shows how to design self-healing polymers and explains the dynamics in these systems. Different self-healing concepts such as encapsulated systems and supramolecular systems are detailed. Chapters on analysis and friction detection in self-healing polymers and on applications round off the book.

Author: Johannes Karl Fink
Publisher: John Wiley & Sons
ISBN: 1119707749
Category : Science
Languages : en
Pages : 336

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Book Description
The focus of this book is the chemistry of environmental engineering and its applications, with a special emphasis on the use of polymers in this field. It explores the creation and use of polymers with special properties such as viscoelasticity and interpenetrating networks; examples of which include the creation of polymer-modified asphalt as well as polymers with bacterial adhesion properties. The text contains the issues of polymerization methods, recycling methods, wastewater treatment, types of contaminants, such as microplastics, organic dyes, and pharmaceutical residues. After a detailed overview of polymers in Chapter 1, their special properties are discussed in the following chapter. Among the topics is the importance of polymers to water purification procedures, since their use in the formation of reverse osmosis membranes do not show biofouling. Chapter 3 details special processing methods, such as atom transfer radical polymerization, enzymatic polymerization, plasma treatment, and several other methods, can be used to meet the urgent demands of industrial applications. Chapter 4 addresses the important environmental issue of recycling methods as they relate to several types of materials such as PET bottles, tire rubbers, asphalt compositions, and other engineering resins. And wastewater treatment is detailed in Chapter 5, in which the types of contaminants, such as microplastics, organic dyes and pharmaceutical residues, are described and special methods for their proper removal are detailed along with types of adsorbents, including biosorbents. Still another important issue for environmental engineering chemistry is pesticides. Chapter 6 is a thorough description of the development and fabrication of special sensors for the detection of certain pesticides. A detailed presentation of the electrical uses of polymer-based composites is given in Chapter 7, which include photovoltaic materials, solar cells, energy storage and dielectric applications, light-emitting polymers, and fast-charging batteries. And recent issues relating to food engineering, such as food ingredient tracing, protein engineering, biosensors and electronic tongues, are presented in Chapter 8. Finally, polymers used for medical applications are described in Chapter 9. These applications include drug delivery, tissue engineering, porous coatings and also the special methods used to fabricate such materials.