Carlos Alemán – författare
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3 produkter
3 produkter
2 471 kr
Skickas inom 10-15 vardagar
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.
978 kr
Skickas inom 10-15 vardagar
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.
1 907 kr
Skickas inom 11-20 vardagar
Peptides are the building blocks of the natural world; with varied sequences and structures, they enrich materials producing more complex shapes, scaffolds and chemical properties with tailorable functionality. Essentially based on self-assembly and self-organization and mimicking the strategies that occur in Nature, peptide materials have been developed to accomplish certain functions such as the creation of specific secondary structures (a- or 310-helices, b-turns, b-sheets, coiled coils) or biocompatible surfaces with predetermined properties. They also play a key role in the generation of hybrid materials e.g. as peptide-inorganic biomineralized systems and peptide/polymer conjugates, producing smart materials for imaging, bioelectronics, biosensing and molecular recognition applications.Organized into four sections, the book covers the fundamentals of peptide materials, peptide nanostructures, peptide conjugates and hybrid nanomaterials, and applications with chapters including: Properties of peptide scaffolds in solution and on solid substratesNanostructures, peptide assembly, and peptide nanostructure designSoft spherical structures obtained from amphiphilic peptides and peptide-polymer hybridsFunctionalization of carbon nanotubes with peptidesAdsorption of peptides on metal and oxide surfacesPeptide applications including tissue engineering, molecular switches, peptide drugs and drug deliveryPeptide Materials: From Nanostructures to Applications gives a truly interdisciplinary review, and should appeal to graduate students and researchers in the fields of materials science, nanotechnology, biomedicine and engineering as well as researchers in biomaterials and bio-inspired smart materials.