Characterization Techniques in Bionanocomposites


Book Description

Characterization Techniques for Bionanocomposites: Advances, Challenges, and Applications provides a detailed review of current techniques used for the characterization of bionanocomposites. The chapters cover physical, chemical, thermal, and electrical characterization techniques as well as spectroscopic and microscopic methods. There is also an entire section dedicated to biodegradability and biological characterization. With its numerous case studies and practical examples, researchers will find this book a valuable information resource that enables them to identify which specialized characterization tools can be applied to different materials for a broad range of biological, environmental, and industrial applications. - Provides detailed coverage of important techniques and analytical tools used for the characterization of bionanocomposites - Contains case study examples and discusses standards for applied characterization - Takes an application-orientated approach




Chitosan Nanocomposites


Book Description

The book presents chitosan and chitosan-based nanocomposites and their extensive applications in medical science. Utilization of chitosan nanostructured composites in different biomedical applications is highlighted. The book is suitable to be used as reference/textbook for studying the biological aspects of chitosan hybrid materials and their efficacy in different therapeutic applications. The important features of the book are summarized as follows: Chitosan as an overview Key biological aspects of chitosan-based nanocomposites Synthetic techniques for fabrication of chitosan nanocomposites for biomedical applications Designing of chitosan-based smart materials for release of therapeutics Fabrication of nanostructured chitosan-based devices for diagnosis and sensing applications Chitosan nanocomposites for regenerative applications Medicinal and therapeutic efficacy of chitosan-based hybrid materials. ​




Chitosan-Based Hydrogels


Book Description

Due to their unique properties, chitosan-based materials have emerged as useful resources in a variety of medicines, drug controlled-release carriers, tissue engineering scaffolds, and immobilized enzymes. But many of these materials have yet to reach the commercial market. Therefore, more work must be completed to fill the gap between research and




Hydrogels


Book Description

Hydrogels, as three-dimensional polymer networks, are able to retain a large amount of water in their swollen state. The biomedical application of hydrogels was initially hampered by the toxicity of cross-linking agents and the limitations of hydrogel formation under physiological conditions. However, emerging knowledge in polymer chemistry and an increased understanding of biological processes have resulted in the design of versatile materials and minimally invasive therapies.The novel but challenging properties of hydrogels are attracting the attention of researchers in the biological, medical, and pharmaceutical fields. In the last few years, new methods have been developed for the preparation of hydrophilic polymers and hydrogels, which may be used in future biomedical and drug delivery applications. Such efforts include the synthesis of self-organized nanostructures based on triblock copolymers with applications in controlled drug delivery. These hydrogels could be used as carriers for drug delivery when combined with the techniques of drug imprinting and subsequent release. Engineered protein hydrogels have many potential advantages. They are excellent biomaterials and biodegradables. Furthermore, they could encapsulate drugs and be used in injectable forms to replace surgery, to repair damaged cartilage, in regenerative medicine, or in tissue engineering. Also, they have potential applications in gene therapy, although this field is relatively new.




Functional Nanocomposite Hydrogels


Book Description

Functional Nanocomposite Hydrogels: Synthesis, Characterization, and Biomedical Applications reviews how the unique properties of nanoscale composite materials make them ideal candidates for use in biomedical hydrogels. The book covers a range of key nanocomposite materials for use in biomedical hydrogels, including graphene quantum dot, cellulose and collagen nanocomposites. A wide selection of biomedical applications for functional nanocomposite hydrogels is explored, from drug delivery and cancer therapy, to wound healing and bioimaging. This is a key reference for those working in the fields of biomaterials, nanotechnology, pharmacology, biomedical engineering, and anyone with a particular interest in composites and hydrogels. To improve the properties of conventional hydrogels, nanoparticles or nanostructures are incorporated into the hydrogel networks, forming a composite hydrogel with specialized functional properties which are tailored to a specific biomedical application. - Reviews the benefits and challenges of nanocomposites as novel materials in biomedical hydrogels, providing the reader with a wider range of choice and improved options for hydrogel development - Describes the synthesis and characterization of nanocomposite hydrogels, offering end-to-end analysis of the process - Details the range of applications in biomedicine for nanocomposite hydrogels, including biosensing, antimicrobics and drug delivery




Multifunctional Hydrogels for Biomedical Applications


Book Description

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.




3D and 4D Printing of Polymer Nanocomposite Materials


Book Description

3D and 4D Printing of Polymer Nanocomposite Materials: Processing, Applications, and Challenges covers advanced 3D and 4D printing processes and the latest developments in novel polymer-based printing materials, thus enabling the reader to understand and benefit from the advantages of this groundbreaking technology. The book presents processes, materials selection, and printability issues, along with sections on the preparation of polymer composite materials for 3D and 4D printing. Across the book, advanced printing techniques are covered and discussed thoroughly, including fused deposition modeling (FDM), selective laser sintering (SLS), selective laser melting (SLM), electron beam melting (EBM), inkjet 3D printing (3DP), stereolithography (SLA), and 3D plotting. Finally, major applications areas are discussed, including electronic, aerospace, construction and biomedical applications, with detailed information on the design, fabrication and processing methods required in each case. - Provides a thorough, clear understanding of polymer preparation techniques and 3D and 4D printing processes, with a view to specific applications - Examines synthesis, formation methodology, the dispersion of fillers, characterization, properties, and performance of polymer nanocomposites - Explores the possibilities of 4D printing, covering the usage of stimuli responsive hydrogels and shape memory polymers




Nanotechnology-Based Additive Manufacturing


Book Description

Nanotechnology-Based Additive Manufacturing State-of-the-art overview of additive manufacturing techniques with an emphasis on processes, product designs and applications This book offers a thorough overview of additive manufacturing technologies, including manufacturing requirements, product design, optimization of processes and product parameters to reduce manufacturing costs. It provides a comprehensive and state-of-the-art review on various additive manufacturing technologies, their advantages, shortcomings, potential applications and future directions. Sample topics discussed by the three well-qualified editors on the topic of additive manufacturing include: Areas of application in the fields of electronics, aerospace, construction, automobile, sports and biomedicine Material considerations, the requirement of specific design, fabrication and processing methods Advantages and disadvantages of various 3D printing techniques for the respectively intended applications This book is an immensely valuable resource for researchers working in the field of additive manufacturing or 3D printing, or for developers dealing with the processing and manufacturing of materials and products for advanced technologies.




Advanced 3D-Printed Systems and Nanosystems for Drug Delivery and Tissue Engineering


Book Description

Advanced 3D-Printed Systems and Nanosystems for Drug Delivery and Tissue Engineering explores the intricacies of nanostructures and 3D printed systems in terms of their design as drug delivery or tissue engineering devices, their further evaluations and diverse applications. The book highlights the most recent advances in both nanosystems and 3D-printed systems for both drug delivery and tissue engineering applications. It discusses the convergence of biofabrication with nanotechnology, constructing a directional customizable biomaterial arrangement for promoting tissue regeneration, combined with the potential for controlled bioactive delivery. These discussions provide a new viewpoint for both biomaterials scientists and pharmaceutical scientists. - Shows how nanotechnology and 3D printing are being used to create systems which are intelligent, biomimetic and customizable to the patient - Explores the current generation of nanostructured 3D printed medical devices - Assesses the major challenges of using 3D printed nanosystems for the manufacture of new pharmaceuticals




Chitosan Based Biomaterials Volume 1


Book Description

Chitosan Based Biomaterials: Fundamentals, Volume 1, provides the latest information on chitosan, a natural polymer derived from the marine material chitin. Chitosan displays unique properties, most notably biocompatibility and biodegradability. It can also be easily tuned to modify its structure or properties, making chitosan an excellent candidate as a biomaterial. Consequently, chitosan is being developed for many biomedical functions, ranging from tissue engineering and implant coatings to drug and gene delivery. This book looks at the fundamentals of chitosan-based biomaterials. - Contains specific focus on the techniques and technologies needed to develop chitosan for biomedical applications - Presents a comprehensive treatment of the fundamentals - Provides contributions from leading researchers with extensive experience in chitosan