Hydrogels are highly hydrated three dimensional networks with the ability to mimic the extracellular matrix of bodily tissues and have thus found application in a wide range of biomedical applications. Unique physiochemical properties such as biocompatibility, water permeability, stimuli responsiveness and self-healing characteristics make them especially useful for use as scaffolds and matrices drug delivery, tissue engineering/regeneration and sensing. Their weak and brittle nature, however, often limits their widespread application where improved mechanical strength is required.
To resolve this problem, there has been a significant amount of research into the improvement of their mechanical properties. Among these efforts, versatile multicomponent hydrogels have received much attention as their physiochemical properties can be structurally engineered to provide a wide range of desired properties. These multicomponent formulations also allow for the combination of natural and synthetic polymers, which offers the scope to exploit the advantages of each component, with the synergistic effects resulting from mutual interactions.
This book critically discusses the fundamental chemistry, synthesis, characterisation, physiochemical and biological properties of various types of multicomponent hydrogels. It reviews the different strategies employed in designing and synthesizing cutting-edge multicomponent hydrogels and their key applications in biomedical fields.
The work is suitable for researchers working in the specific area of multicomponent hydrogels, and also more generally for those working in materials science, biomedical engineering, biomaterials science and tissue engineering.
Daftar Isi
Hydrogels: Definition, History, Classifications, Formation, Constitutive Characteristics, and Applications;Multicomponent Hydrogels: Design Architecture, Synthesis Methods, Chemical Reactions and Mechanisms, Crosslinking Strategies, and Radiation Techniques;Multicomponent Low Molecular Weight Gels and Gelators;Characterization Techniques of Multicomponent Hydrogels;Dendritic Hydrogels and Their Biomedical Applications;Click Hydrogels for Biomedical Applications;Electrospinning of Multicomponent Hydrogels for Biomedical Applications;3D Printing of Multicomponent Hydrogels for Biomedical Applications;Modeling and Simulations of Multicomponent Hydrogels for Biomedical Applications;Multicomponent Hybrid Hydrogels for Biomedical Applications: Opportunities and Challenges;Multicomponent Hydrogels for Tissue Engineering Applications;Multicomponent Hydrogels for Controlled Drug Release and Delivery;Multicomponent Antimicrobial Hydrogels for Wound Healing Applications;Multicomponent Hydrogels in Clinical and Pharmaceutical Applications;Multicomponent Hydrogels for Bioimaging and Biosensing Applications;Multicomponent Hydrogels for Cancer Diagnosis and Therapy;Stimuli-responsive and Self-healing Multicomponent Hydrogels for Biomedical Applications;Toxicity, Regulatory Considerations, and Commercialization Aspects of Multi-component Hydrogels