Download Free Multifunctional Hydrogels Book in PDF and EPUB Free Download. You can read online Multifunctional Hydrogels and write the review.

Hydrogels are important polymer-based materials with innate fascinating properties and applications: they are three-dimensional, hydrophilic, polymeric networks that can absorb large amounts of water or aqueous fluids and are biocompatible, mechanically flexible, and soft. The incorporation of functionalities to develop smart and bioactive platforms has led to a myriad of applications. This book offers a comprehensive overview of multifunctional hydrogels, covering fundamentals, properties, and advanced applications in a progressive way. While each chapter can be read stand-alone, together they clearly describe the fundamental concepts of design, synthesis, and fabrication, as well as properties and performances of smart multifunctional hydrogels and their advanced applications in the biomedical, environmental, and robotics fields. This book: • Introduces readers to different hydrogel materials and the polymer types used to fabricate them. • Discusses conducting polymer hydrogels, nanocomposite hydrogels, and self-healing hydrogels. • Covers synthesis methodologies and fabrication techniques commonly used to confer certain structures and/or architectures. • Shows how hydrogels can be modified to incorporate new functionalities able to respond to physical and/or chemical changes. • Examines applications including bioelectronics, sensors and biosensors, tissue engineering, drug delivery, antipathogen applications, cancer theranostics, environmental applications, and soft robotics, with chapters showcasing the main advances achieved up to date in every field. Multifunctional Hydrogels: From Basic Concepts to Advanced Applications serves as a valuable resource for academic and industry researchers from interdisciplinary fields including materials science, chemistry, chemical engineering, bioengineering, physics, and pharmaceutical engineering.
Multifunctional Hydrogels for Biomedical Applications Comprehensive resource presenting a thorough overview of the biomedical applications of hydrogels This book provides an overview of the development and applications of the clinically relevant hydrogels that are used particularly in tissue engineering, regenerative medicine, and drug delivery. Taking a multidisciplinary approach, it goes through the material from chemistry, materials science, biology, medicine, nanotechnology, and bioengineering points of view. Sample topics covered by the three well-qualified editors include: The design, functions, and developments of hydrogels Proteins and polysaccharides that mimic extracellular matrix Generation and applications of supramolecular hydrogels Design and functions of cell encapsulation systems Multifunctional Hydrogels for Biomedical Applications is a useful all-in-one reference work for materials scientists, polymer chemists, and bioengineers which provides a comprehensive, contemporary understanding of hydrogels and their applications targeting a wide variety of pathologies.
This book discusses recent advances in hydrogels, including their generation and applications and presents a compendium of fundamental concepts. It highlights the most important hydrogel materials, including physical hydrogels, chemical hydrogels, and nanohydrogels and explores the development of hydrogel-based novel materials that respond to external stimuli, such as temperature, pressure, pH, light, biochemicals or magnetism, which represent a new class of intelligent materials. With their multiple cooperative functions, hydrogel-based materials exhibit different potential applications ranging from biomedical engineering to water purification systems. This book covers key topics including superabsorbent polymer hydrogel; intelligent hydrogels for drug delivery; hydrogels from catechol-conjugated materials; nanomaterials loaded hydrogel; electrospinning of hydrogels; biopolymers-based hydrogels; injectable hydrogels; interpenetrating-polymer-network hydrogels: radiation- and sonochemical synthesis of micro/nano/macroscopic hydrogels; DNA-based hydrogels; and multifunctional applications of hydrogels. It will prove a valuable resource for researchers working in industry and academia alike.
Advanced Lightweight Multifunctional Materials presents the current state-of-the-art on multifunctional materials research, focusing on different morphologies and their preparation and applications. The book emphasizes recent advances on these types of materials as well as their application. Chapters cover porous multifunctional materials, thermochromic and thermoelectric materials, shape memory materials, piezoelectric multifunctional materials, electrochromic and electrorheological, soft materials, magnetic and photochromic materials, and more. The book will be a valuable reference resource for academic researchers and industrial engineers working in the design and manufacture of multifunctional materials, composites and nanocomposites. - Provides detailed information on design, modeling and structural applications - Focuses on characteristics, processing, design and applications - Discusses the main types of lightweight multifunctional materials and processing techniques, as well as the physico-chemical insights that can lead to improved performance
- To ensure the correct assessment and management of patients with wounds -Starting a clinical audit is challenging for young physicians and interns, they always wonder what are the steps can we have an example. In that brief paper I will put a flexible, modifiable and easy frame to help them achieve an accurate and rewarding clinical audit.
This book provides an overview of hydrogels and nanogels, including their manufacturing techniques, physicochemical and mechanical properties, and applications in medicine, as well as bioengineering strategies and their impacts on the functions of carrier systems. It explores the fundamentals of the synthesis, synthetic chemistry, and development of hydrogels and nanogels. It discusses the fabrication of stimuli-responsive hydrogels and nanogels and biomaterial requirements, as well as reviews the various classifications of hydrogels and nanogels and their self-assembly and gelation mechanisms. The book also highlights the mechanisms of drug encapsulation and release from hydrogels and nanogels and their biocompatibility with physiological membranes. Furthermore, it provides information on how to modify or engineer the surface of biomimetic systems for targeting purposes and the materials to be used to realize this objective. The book discusses factors to consider for the clinical translation of hydrogels and nanogels. Finally, it discusses the biomedical applications of hydrogels and nanogels, including in drug delivery, wound healing, and neurological and ophthalmic diseases.
Advances in Virus Research serial highlights new advances in the field with this new volume presenting interesting chapters. Each chapter is written by an international board of authors. - Provides the authority and expertise of leading contributors from an international board of authors - Presents the latest release in Advances in Virus Research serials - Updated release includes the latest information on Microbes at bio/nano interfaces
This extensive work covers the latest developments in drug delivery, biomaterials, and encapsulating systems and their revolutionary potential in several fields. Highlighting encapsulation techniques that improve therapy accuracy and reduce adverse effects, this book explores the most recent developments in photodynamic and photothermal treatments. It delves further into the many medicinal applications of hydrogels, including their use in controlled medication release and regenerative medicine. An eco-friendly method of administering medicinal substances is discussed in detail in several chapters, as is the use of encapsulating systems based on pectin to stabilize bioactive chemicals. Discover the incredible world of microencapsulation and how it has revolutionized modern medicine. These techniques allow for the exact distribution and increased preservation of delicate medications. Finally, learn how hydrogel coatings are developing to tackle maritime antifouling, which is a tough problem, and how to make sure they last and work in extreme conditions. Anyone interested in biotechnology, pharmaceuticals, materials science, or marine engineering will find this volume to be an indispensable resource. From healthcare to sustainability, it shows how encapsulation and biomaterials may address problems in the actual world. Inspiring future developments in medication delivery systems, biomaterials, and beyond, this book ignites fresh ideas with contributions from prominent specialists in the area.