Advanced surface engineering materials

Advanced surfaces enriches the high-throughput engineering of physical and chemical phenomenon in relatin to electrical, magnetic, electronics, thermal and optical controls, as well as large surface areas, protective coatings against water loss and excessive gas exchange. A more sophisticated exampl...

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Main Authors	Tiwari, Ashutosh, Wang, Rui, Wei, Bingqing
Format	eBook Book
Language	English
Published	Hoboken, Mass Scrivener 2016 John Wiley & Sons, Incorporated Wiley-Blackwell
Edition	1
Series	Advanced materials series
Subjects	Adhesives Coating processes Coatings Smart materials Surfaces (Technology)
Online Access	Get full text

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Abstract	Advanced surfaces enriches the high-throughput engineering of physical and chemical phenomenon in relatin to electrical, magnetic, electronics, thermal and optical controls, as well as large surface areas, protective coatings against water loss and excessive gas exchange. A more sophisticated example could be a highly selective surface permeability allowing passive diffusion and selective transport of molecules in the water or gases. The smart surface technology provides an interlayer model which prevents the entry of substances without affecting the properties of neighboring layers. A number of methods have been developed for coatings, which are essential building blocks for the top-down and/or bottom-up design of numerous functional materials. Advanced Surface Engineering Materials offers a detailed up-to-date review chapters on the functional coatings and adhesives, engineering of nanosurfaces, high-tech surface, characterization and new applications. The 13 chapters in this book are divided into 3 parts (Functional coatings and adhesives; Engineering of nanosurfaces; High-tech surface, characterization and new applications) and are all written by worldwide subject matter specialists. The book is written for readers from diverse backgrounds across chemistry, physics, materials science and engineering, medical science, environmental, bio- and nano- technologies and biomedical engineering. It offers a comprehensive view of cutting-edge research on surface engineering materials and their technological importance.
AbstractList	Advanced surfaces enriches the high-throughput engineering of physical and chemical phenomenon in relatin to electrical, magnetic, electronics, thermal and optical controls, as well as large surface areas, protective coatings against water loss and excessive gas exchange. A more sophisticated example could be a highly selective surface permeability allowing passive diffusion and selective transport of molecules in the water or gases. The smart surface technology provides an interlayer model which prevents the entry of substances without affecting the properties of neighboring layers. A number of methods have been developed for coatings, which are essential building blocks for the top-down and/or bottom-up design of numerous functional materials. Advanced Surface Engineering Materials offers a detailed up-to-date review chapters on the functional coatings and adhesives, engineering of nanosurfaces, high-tech surface, characterization and new applications. The 13 chapters in this book are divided into 3 parts (Functional coatings and adhesives; Engineering of nanosurfaces; High-tech surface, characterization and new applications) and are all written by worldwide subject matter specialists. The book is written for readers from diverse backgrounds across chemistry, physics, materials science and engineering, medical science, environmental, bio- and nano- technologies and biomedical engineering. It offers a comprehensive view of cutting-edge research on surface engineering materials and their technological importance.
Author	Tiwari, Ashutosh Wei, Bingqing Wang, Rui
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Notes	Includes bibliographical references and index
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Publisher	Scrivener John Wiley & Sons, Incorporated Wiley-Blackwell
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SubjectTerms	Adhesives Coating processes Coatings Smart materials Surfaces (Technology)
TableOfContents	5.4.1 Possibilities of Affecting the Structural-osteoconductive Potential of the MSC-scaffold Interfacing System -- 5.4.2 Initial Pilot Implantation Study on Structurally Functionalized MSC-scaffold Interfacing System -- 5.4.3 In Vitro Cytobiocompatibility (Biofunctionality) Tests on Prototypes of the MSC-scaffold -- 5.5 Hydroxyapatite-like Functionalization of Bone Contacting Surfaces of the MSC-scaffold to Enhance Osteointegration -- 5.5.1 Initial Attempts to Modify Bone Contacting Surfaces of the MSC-scaffold Prototype by the Method of Electrochemical Cathodic Deposition of Calcium Phosphates -- 5.5.2 Evaluation of Biointegration of the Implanted MSC-scaffold Preprototypes with Surfaces Modified with Calcium Phosphates and Unmodified Surfaces -- 5.5.3 Research on the MSC-scaffold Prototypes (Ca-P Surface Modified and Non-modified) in Osteoblast Cell Culture -- 5.6 Conclusions -- Acknowledgments -- References -- Part 2 Engineering of Nanosurfaces -- 6 Biosynthesis of Metal Nanoparticles and Graphene -- 6.1 Introduction -- 6.2 Synthesis of Gold and Silver Nanoparticles Using Microorganisms -- 6.2.1 Synthesis of Gold and Silver Nanoparticles Using Bacteria -- 6.2.2 Synthesis of Gold and Silver Nanoparticles Using the Fungal Systems -- 6.2.3 Synthesis of Gold and Silver Nanoparticles Using the Actinomycete -- 6.3 Synthesis of Gold and Silver Nanoparticles Using Fruit Extract -- 6.4 Synthesis of Gold and Silver Nanoparticles Using Plant Extract -- 6.5 Synthesis of Gold and Silver Nanoparticles Using Honey -- 6.6 Synthesis of Gold and Silver Nanoparticles Using Animal Tissue -- 6.7 Synthesis of Semiconductor Nanoparticles from Plant, Fruit Extract and Honey -- 6.8 Biosynthesis of Other Nanoparticles -- 6.9 Biosynthesis of Graphene -- 6.10 Applications of Metal Nanoparticles and Graphene -- 6.11 Future Trends and Prospects -- 6.12 Conclusions Cover -- Title Page -- Copyright Page -- Contents -- Preface -- Part 1 Functional Coatings and Adhesives -- 1 Bio-inspired Coatings and Adhesives -- 1.1 Introduction -- 1.2 The Interfacial Biochemistry of a Mussel Adhesive -- 1.3 Tough Coating Proteins in the Mussel Thread -- 1.4 Mussel-inspired Coatings and Adhesives -- 1.5 Conclusions and Future Research Avenues for Bio-inspired Adhesives and Coatings -- References -- 2 Advancement of Surface by Applying a Seemingly Simple Sol-gel Oxide Materials -- 2.1 Introduction -- 2.2 Are Simple Sol-gel Oxides Only Simple Materials? -- 2.2.1 Sol-gel Synthesis -- 2.2.1.1 Precursor -- 2.2.1.2 Water -- 2.2.1.3 Catalyst and pH -- 2.2.1.4 Solvents -- 2.2.1.5 Synthesis Drawbacks -- 2.2.2 Differences in Coating Techniques Depending on the Substrate Form -- 2.2.2.1 Planar Substrates -- 2.2.2.2 Particles -- 2.2.2.3 Fibers -- 2.2.3 Sol-gel Oxides: Properties and Applications -- 2.3 Hybrid Coating Materials -- 2.4 Functionalized Oxide Coatings -- 2.4.1 Volume Functionalization -- 2.4.2 Surface Functionalization -- 2.5 Coatings for Cells -- 2.6 Sol-gel Materials as Interface Materials -- 2.7 Conclusions -- References -- 3 Femtosecond Laser Texturing of Bio-based Polymer Films for Surface Functionalization -- 3.1 Introduction -- 3.2 Naturally Derived Biomaterials -- 3.2.1 Collagen -- 3.2.2 Gelatin -- 3.2.3 Elastin -- 3.2.4 Optical Properties of Biopolymers -- 3.3 Surface Modification Features -- 3.4 Mechanisms of Laser-tissue Interaction -- 3.4.1 Characteristics of Ultra-fast Laser Radiation -- 3.4.1.1 Ultra-short Pulses -- 3.4.2 Femtosecond Laser Interaction with Polymers -- 3.5 Laser-based Methods for Surface Treatment of Biomaterials -- 3.5.1 Laser Surface Patterning -- 3.5.2 Ultra-short Laser Processing -- 3.5.3 Material and Methods -- 3.5.4 Morphology of Surface Patterns of Thin Biopolymer Films 3.5.4.1 Wettability Studies -- 3.5.4.2 Morphological Analysis of Laser Produced Porous Matrices -- 3.5.4.3 Atomic Force Microscopy and Confocal Examination of the Laser Produced Modification -- 3.5.5 Cell Cultivation on Laser-modified Substrates -- 3.5.6 Mechanism of Cell Locomotion -- 3.6 Conclusion -- Acknowledgments -- References -- 4 Engineered Electromagnetic Surfaces and Their Applications -- 4.1 Introduction -- 4.2 Impedance Boundary Condition -- 4.3 Metasurfaces Based on Metallic Strips -- 4.3.1 Anisotropic Metasurfaces -- 4.3.2 Model Validation -- 4.3.3 Applications to Electromagnetic Cloaking -- 4.4 Metasurfaces Based on Circular Inclusions -- 4.4.1 Holey Metasurfaces -- 4.4.2 High-impedance Surfaces with Circular Elements -- 4.5 Metasurfaces Based on Crossed Dipoles -- 4.5.1 Crossed-aperture Metasurfaces -- 4.5.2 Full-wave Numerical Simulations -- References -- 5 Structural and Hydroxyapatite-like Surface Functionalization of Advanced Biomimetic Prototype Interface for RA Endoprostheses to Enhance Osteoconduction and Osteointegration -- 5.1 Introduction -- 5.2 Biomimetic Multi-spiked Connecting Scaffold Prototype - The Promising Breakthrough in Bone-implant Advanced Interfacing in Joint Resurfacing Endoprostheses Fixation Technique -- 5.3 Bioengineering Design of the MSC-scaffold Prototype, Its Additive Manufacturing and Post-SLM_processing of Bone Contacting Surfaces -- 5.3.1 Bioengineering Design and the CAD Modelling of the Bone-RA Endoprostheses Interfacing MSC-scaffold -- 5.3.2 Additive Manufacturing in Selective Laser Melting Technology -- 5.3.3 Post-production Processing of Bone Contacting Surfaces -- 5.4 Structural Pro-osteoconduction Functionalization of the MSC-scaffold Interfacing System for Biomimetic Entirely Cementless RA Endoprostheses 8 Nanoassisted Functional Modulation of Enzymes: Concept and Applications -- 8.1 Introduction -- 8.2 Enzyme Modifying Nanomaterials -- 8.2.1 Carbon Nanotube -- 8.2.2 Graphene Oxide Nanomaterials -- 8.2.3 Quantom Dots -- 8.2.4 Single Enzyme Nanoparticles (SEN) -- 8.2.5 Nanoscale Enzyme Reactor (NER) -- 8.2.6 Nanofibers -- 8.2.7 Nanowires -- 8.2.8 Nanogels -- 8.2.9 Nanoflowers -- 8.2.10 Magnetic Nanoparticles -- 8.3 Regulations of Enzyme Properties by Several Nanomaterials -- 8.3.1 Regulation of Enzyme Activity and Stability on Nanomaterial Interactions -- 8.3.2 Regulation of Enzyme Structure on Nanomaterial Interactions -- 8.4 Conclusions -- Abbreviations -- References -- 9 Electrospun Fibers Based on Biopolymers -- 9.1 Electrospinning: Background and Set-up -- 9.2 Biopolymers -- 9.3 Electrospinning of Biopolymer Nanofibers -- 9.3.1 Cellulose and Cellulose Derivatives -- 9.3.2 Chitosan -- 9.3.3 Poly(vinyl Alcohol) -- 9.3.4 Silk -- 9.3.5 Collagen -- 9.3.6 Gelatin -- 9.4 Electrospun Fibers Based on Biopolymers Blends -- 9.5 Bionanocomposites Electrospun Fibers -- 9.5.1 Electrospun Biopolymeric Fibers Reinforced with 0-D -- 9.5.2 Electrospun Biopolymeric Fibers Reinforced with 1-D -- 9.5.2.1 Electrospun Nanocomposites Fibers with Cellulose Nanocrystals -- 9.5.2.2 Electrospun Nanocomposite Fibers with Carbon Nanotubes -- 9.5.2.3 Electrospun Nanocomposite Fibers with Halloysite Nanotubes -- 9.5.3 Electrospun Biopolymeric Fibers Reinforced with 2-D -- 9.5.3.1 Electrospun Nanocomposites Fibers with Graphene -- 9.6 Conclusions -- Acknowledgments -- References -- 10 Nanostructured Materials as Biosensor Transducers: Achievements and Future Developments -- 10.1 Introduction -- 10.2 Biosensors According to the Main Principles of Their Classification -- 10.3 Ion-selective Field Effect Transistors-based Biosensors: Origins and Perspective Development Acknowledgements -- References -- 7 Surface Modifiers for the Generation of Advanced Nanomaterials -- 7.1 Introduction -- 7.2 Most Commonly Used NMs and Their Possible Surface Chemistry -- 7.3 Parameters Influencing NP Functionalization -- 7.3.1 Nature of Attachment onto NM Surface -- 7.3.2 Molecular Density on NP Surface -- 7.3.3 Orientation of Attached Molecule on NP Surface -- 7.3.4 Separation Distance Between Modifier and NP Surface -- 7.3.5 Reproducibility of Chemistry -- 7.4 Modification Strategies -- 7.4.1 Noncovalent Interactions -- 7.4.1.1 π-π Stacking Interactions -- 7.4.1.2 Electrostatic Interactions -- 7.4.1.3 Hydrogen Bonding -- 7.4.1.4 Hydrophobic Interactions -- 7.4.2 Covalent Modification -- 7.4.2.1 Carbodiimide Coupling -- 7.4.2.2 Maleimide Coupling -- 7.4.2.3 Imine Formation (Glutaraldehyde-Amine Coupling) -- 7.4.2.4 Epoxide Opening -- 7.4.2.5 Addition to Cyanates -- 7.4.2.6 Silanization -- 7.4.2.7 Click Chemistry -- 7.4.2.8 1,3-Dipolar Cycloaddition -- 7.4.2.9 Diels-Alder Reactions -- 7.4.2.10 Staudinger Ligation -- 7.4.2.11 The Michael Addition -- 7.5 The Potential Problems During NPs Modifications -- 7.5.1 Over-activation of Surface Functional Groups -- 7.5.2 Dispersion During Modification -- 7.5.3 Purification -- 7.5.4 Inter NP-NP or Modifier-Modifier Cross-linking -- 7.5.5 Oxidation of NPs Surface and/or Modifier -- 7.5.6 Complex Reaction Conditions -- 7.6 Surface Modifiers -- 7.6.1 Carbohydrates -- 7.6.1.1 Monosaccharide-, Disaccharide-, and Oligosaccharide-Functionalized NPs -- 7.6.2 Polysaccharide-functionalized NPs -- 7.6.2.1 Cellulose -- 7.6.2.2 Chitosan -- 7.6.2.3 Dextran -- 7.6.2.4 Pullulan -- 7.6.2.5 Starch -- 7.6.2.6 Xantham Gum -- 7.6.3 Oligonucleotides -- 7.6.4 Peptides -- 7.6.5 Polymers -- 7.6.5.1 Biodegradability -- 7.6.5.2 Amphiphilicity -- 7.6.5.3 Ionic Strength -- 7.7 Conclusions -- References 10.3.1 Cerium Oxide IsFETs-based Biosensors
Title	Advanced surface engineering materials
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