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Author: Haley Katherine Beech Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
Crosslinked polymer networks and gels are pervasive in daily life, with applications ranging from tires to contact lenses to precision drug delivery. For any application, it is desirable to engineer the material based on fundamental principles and predictive theories a priori to synthesis or production. This is challenging because end-linked polymer gels are filled with defects, specifically loops, dangling ends, and unreacted chains that significantly impact the elasticity of the network. Many classical theories do not account for these defects and rely on untested molecular assumptions that lead to inaccurate predictions. To address this gap, experiments were designed to relate gel topology to key properties: equilibrium swelling, gel point, chain conformation, and fracture toughness. Equilibrium swelling data demonstrated that gels with more loops reach a higher degree of swelling due to fewer elastic constraints, and led to a revised Flory-Rehner swelling theory which accurately captures this behavior. Gel points measured during both bond forming and bond breaking processes deviated as gels became more dilute, indicating a departure from truly random percolation and suggesting kinetic effects should be considered when modelling gelation. Small angle neutron scattering was used to measure single chain conformations within a gel, indicating that elastic chains stretch to create a space-spanning network, with increased stretching as gels become more dilute. Fracture toughness data showed that gels with more loops have a lower fracture toughness but a larger strain at break due to the effective extension of average chain length, which led to an update to the Lake Thomas fracture theory that accounted for defects. A new conceptual understanding of fracture as a process guided by the intrinsic reactivity of the substituent strands was demonstrated, further validating the revised fracture theory. Weak and strong mechanophores were used as crosslinkers in an end-linked network where the tearing energy was shown to correlate directly to the force-coupled reactivity of the linker. Tearing energy of mixed reactivity networks demonstrated that depercolation of the fracture zone was the necessary criterion for failure. These experiments collectively enabled quantitative improvements to classical network models, provided evidence to verify molecular assumptions, and deepened conceptual understanding of network properties, enhancing predictive material design capabilities. Finally, a theoretical model for crosslinking with side reactions was updated and experimentally validated, enabling the study of nonideal networks common in instudrial applications.
Author: Haley Katherine Beech Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
Crosslinked polymer networks and gels are pervasive in daily life, with applications ranging from tires to contact lenses to precision drug delivery. For any application, it is desirable to engineer the material based on fundamental principles and predictive theories a priori to synthesis or production. This is challenging because end-linked polymer gels are filled with defects, specifically loops, dangling ends, and unreacted chains that significantly impact the elasticity of the network. Many classical theories do not account for these defects and rely on untested molecular assumptions that lead to inaccurate predictions. To address this gap, experiments were designed to relate gel topology to key properties: equilibrium swelling, gel point, chain conformation, and fracture toughness. Equilibrium swelling data demonstrated that gels with more loops reach a higher degree of swelling due to fewer elastic constraints, and led to a revised Flory-Rehner swelling theory which accurately captures this behavior. Gel points measured during both bond forming and bond breaking processes deviated as gels became more dilute, indicating a departure from truly random percolation and suggesting kinetic effects should be considered when modelling gelation. Small angle neutron scattering was used to measure single chain conformations within a gel, indicating that elastic chains stretch to create a space-spanning network, with increased stretching as gels become more dilute. Fracture toughness data showed that gels with more loops have a lower fracture toughness but a larger strain at break due to the effective extension of average chain length, which led to an update to the Lake Thomas fracture theory that accounted for defects. A new conceptual understanding of fracture as a process guided by the intrinsic reactivity of the substituent strands was demonstrated, further validating the revised fracture theory. Weak and strong mechanophores were used as crosslinkers in an end-linked network where the tearing energy was shown to correlate directly to the force-coupled reactivity of the linker. Tearing energy of mixed reactivity networks demonstrated that depercolation of the fracture zone was the necessary criterion for failure. These experiments collectively enabled quantitative improvements to classical network models, provided evidence to verify molecular assumptions, and deepened conceptual understanding of network properties, enhancing predictive material design capabilities. Finally, a theoretical model for crosslinking with side reactions was updated and experimentally validated, enabling the study of nonideal networks common in instudrial applications.
Author: Ferenc Horkay Publisher: ISBN: 9780841233164 Category : Science Languages : en Pages : 400
Book Description
Gels are ubiquitous both in materials science and biology. Interest in the behavior of this class of soft materials has increased significantly in the last decades as new experimental approaches have been developed to synthesize and characterize gels, and as theoretical and computational methods have advanced to model the structure and properties of these complex materials. For example, molecular simulation is now an essential tool to investigate gels and other types of soft matter where experimental measurements are not possible. The growth of this field to include applications in biology and medicine as also provided much impetus to gels research. The goal of this volume is to discuss recent progress in gel science. The chapters cover a wide variety of topics from polymer chemistry, physics, materials science and engineering, reflecting the interdisciplinary character of this field. A knowledge of the physical and chemical behavior of gels is essential for understanding, designing, and controlling material properties and performance. Gels can be synthesized with either flexible or stiff chains, linear or branched, and their length can also be tailored, etc. The network chains can be bonded to each other by chemical crosslinks or physical bonds involving van der Waals interactions, dipole-dipole interactions, hydrogen or ionic bonds, or pi-pi or pi-charge interactions. In addition to traditional polymer gels, this volume also focuses on low molecular mass organic gelators, relatively new, but rapidly growing, research direction in gel science. Special attention is devoted to the diverse applications of gels; using hydrogels for cleaning the painted surface of artwork (conservation of cultural heritage such as paintings and sculptures), developing advanced drug delivery systems, investigating the mechanism of setting of cement and hardening of concrete, etc.
Author: Rodney Priestley Publisher: Royal Society of Chemistry ISBN: 1788014170 Category : Science Languages : en Pages : 442
Book Description
Academic and industrial research around polymer-based colloids is huge, driven both by the development of mature technologies, e.g. latexes for coatings, as well as the advancement of new materials and applications, such as building blocks for 2D/3D structures and medicine. Edited by two world-renowned leaders in polymer science and engineering, this is a fundamental text for the field. Based on a specialised course by the editors, this book provides the reader with an invaluable single source of reference. The first section describes formation, explaining basic properties of emulsions and dispersion polymerization, microfluidic approaches to produce polymer-based colloids and formation via directed self-assembly. The next section details characterisation methodologies from microscopy and small angle scattering, to surface science and simulations. The final chapters close with applications, including Pickering emulsions and molecular engineering for materials development. A comprehensive guide to polymer colloids, with contributions by leaders in their respective areas, this book is a must-have for researchers and practitioners working across polymers, soft matter and chemical and molecular engineering.
Author: Qipeng Guo Publisher: John Wiley & Sons ISBN: 1118452151 Category : Technology & Engineering Languages : en Pages : 472
Book Description
With a focus on structure-property relationships, this book describes how polymer morphology affects properties and how scientists can modify them. The book covers structure development, theory, simulation, and processing; and discusses a broad range of techniques and methods. • Provides an up-to-date, comprehensive introduction to the principles and practices of polymer morphology • Illustrates major structure types, such as semicrystalline morphology, surface-induced polymer crystallization, phase separation, self-assembly, deformation, and surface topography • Covers a variety of polymers, such as homopolymers, block copolymers, polymer thin films, polymer blends, and polymer nanocomposites • Discusses a broad range of advanced and novel techniques and methods, like x-ray diffraction, thermal analysis, and electron microscopy and their applications in the morphology of polymer materials
Author: Xian Jun Loh Publisher: Royal Society of Chemistry ISBN: 1849735611 Category : Science Languages : en Pages : 275
Book Description
The only book to give a complete picture of current hydrogel research, covering all the major applications as well as the fundamental principles behind them.
Author: Yves De Deene Publisher: Royal Society of Chemistry ISBN: 1788019202 Category : Science Languages : en Pages : 426
Book Description
Gels are used in a large variety of commercial and scientific products from drug delivery systems and food science to biomedical sensors. They also are invaluable in MRI physics research where they mimic biological tissue and in radiotherapy quality assurance where they are used to capture the three dimensional radiation dose distribution. This unique book discusses the state-of-the-art of NMR and MRI techniques in studying the physics and chemistry of gel systems, in their application as MRI phantoms and as three dimensional radiation dosimeters. The first part of the book will cover the fundamental physical concepts of gels and the NMR techniques to study gel systems. The second part is dedicated to the application of gels in the life sciences and in the medical practice to validate radiotherapy and new MRI techniques. Filling the gap in literature, this volume provides the scientific reader with an extensive overview of possible techniques and methods to study the interesting properties and applications of gels. For the MRI researcher and medical physicist, the book will be a valuable resource in using gel phantoms for validating contemporary MRI techniques and radiotherapy treatments.
Author: Redouane Borsali Publisher: Springer Science & Business Media ISBN: 140204464X Category : Science Languages : en Pages : 1490
Book Description
This 2-volume set includes extensive discussions of scattering techniques (light, neutron and X-ray) and related fluctuation and grating techniques that are at the forefront of this field. Most of the scattering techniques are Fourier space techniques. Recent advances have seen the development of powerful direct imaging methods such as atomic force microscopy and scanning probe microscopy. In addition, techniques that can be used to manipulate soft matter on the nanometer scale are also in rapid development. These include the scanning probe microscopy technique mentioned above as well as optical and magnetic tweezers.
Author: Pietro Matricardi Publisher: CRC Press ISBN: 9814613622 Category : Medical Languages : en Pages : 527
Book Description
Hydrogels are an emerging area of interest in medicine as well as pharmaceutics, and their physico-chemical characterization is fundamental to their practical applications. Compared with synthetic polymers, polysaccharides that are widely present in living organisms and come from renewable sources are extremely advantageous for hydrogel formation.
Author: Haley Katherine Beech
Author: Haley Katherine Beech
Author: Ferenc Horkay
Author: Ferenc Horkay
Author: Cornell University
Author: Rodney Priestley
Author: Qipeng Guo
Author: Xian Jun Loh
Author: Yves De Deene
Author: Redouane Borsali
Author: Pietro Matricardi