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. INDICE: Preface xvii .Part 1 Functional Coatings and Adhesives .1 Bio–inspired Coatings and Adhesives 3 Saurabh Das and B. Kollbe Ahn .1.1 Introduction 4 .1.2 The Interfacial Biochemistry of a Mussel Adhesive 4 .1.3 Tough Coating Proteins in the Mussel Thread 12 .1.4 Mussel–inspired Coatings and Adhesives 15 .1.5 Conclusions and Future Research Avenues for Bio–inspired Adhesives and Coatings 25 .References 26 .2 Advancement of Surface by Applying a Seemingly Simple Sol gel Oxide Materials 33 Justyna Krzak, Beata Borak, Anna ukowiak, Anna Donesz–Sikorska, Bartosz Babiarczuk, Krzysztof Marycz and Anna Szczurek .2.1 Introduction 33 .2.2 Are Simple Sol gel Oxides Only Simple Materials? 35 .2.3 Hybrid Coating Materials 55 .2.4 Functionalized Oxide Coatings 62 .2.5 Coatings for Cells 70 .2.6 Sol gel Materials as Interface Materials 75 .2.7 Conclusions 81 .References 83 .3 Femtosecond Laser Texturing of Bio–based Polymer Films for Surface Functionalization 97 A. Daskalova .3.1 Introduction 98 .3.2 Naturally Derived Biomaterials 100 .3.3 Surface Modification Features 102 .3.4 Mechanisms of Laser tissue Interaction 104 .3.5 Laser–based Methods for Surface Treatment of Biomaterials 113 .3.6 Conclusion 134 .Acknowledgments 135 .References 135 .4 Engineered Electromagnetic Surfaces and Their Applications 141 Mirko Barbuto, Filiberto Bilotti, Alessio Monti, Davide Ramaccia and Alessandro Toscano .4.1 Introduction 142 .4.2 Impedance Boundary Condition 143 .4.3 Metasurfaces Based on Metallic Strips 145 .4.4 Metasurfaces Based on Circular Inclusions 155 .4.5 Metasurfaces Based on Crossed Dipoles 163 .References 169 .5 Structural and Hydroxyapatite–like Surface Functionalization of Advanced Biomimetic Prototype Interface for RA Endoprostheses to Enhance Osteoconduction and Osteointegration 175 Ryszard Uklejewski, Piotr Rogala and Mariusz Winiecki .5.1 Introduction 176 .5.2 Biomimetic Multi–spiked Connecting Scaffold Prototype The Promising Breakthrough in Bone–implant Advanced Interfacing in Joint Resurfacing Endoprostheses Fixation Technique 180 .5.3 Bioengineering Design of the MSC–scaffold Prototype, Its Additive Manufacturing and Post–SLM—processing of Bone Contacting Surfaces 183 .5.4 Structural Pro–osteoconduction Functionalization of the MSC–scaffold Interfacing System for Biomimetic Entirely Cementless RA Endoprostheses 208 .5.5 Hydroxyapatite–like Functionalization of Bone Contacting Surfaces of the MSC–scaffold to Enhance Osteointegration 220 .5.6 Conclusions 229 .Acknowledgments 232 .References 232 .Part 2 Engineering of Nanosurfaces .6 Biosynthesis of Metal Nanoparticles and Graphene 243 Ujjal Kumar Sur .6.1 Introduction 244 .6.2 Synthesis of Gold and Silver Nanoparticles Using Microorganisms 257 .6.3 Synthesis of Gold and Silver Nanoparticles Using Fruit Extract 263 .6.4 Synthesis of Gold and Silver Nanoparticles Using Plant Extract 265 .6.5 Synthesis of Gold and Silver Nanoparticles Using Honey 273 .6.6 Synthesis of Gold and Silver Nanoparticles Using Animal Tissue 273 .6.7 Synthesis of Semiconductor Nanoparticles from Plant, Fruit Extract and Honey 274 .6.8 Biosynthesis of Other Nanoparticles 276 .6.9 Biosynthesis of Graphene 279 .6.10 Applications of Metal Nanoparticles and Graphene 283 .6.11 Future Trends and Prospects 286 .6.12 Conclusions 287 .Acknowledgements 288 .References 289 .7 Surface Modifiers for the Generation of Advanced Nanomaterials 297 P nar Akku Süt, Melike Belenli, Özlem en, Melis Emanet, Mine Altunbek and Mustafa Çulha .7.1 Introduction 297 .7.2 Most Commonly Used NMs and Their Possible Surface Chemistry 298 .7.3 Parameters Influencing NP Functionalization 298 .7.4 Modification Strategies 304 .7.5 The Potential Problems During NPs Modifications 316 .7.6 Surface Modifiers 317 .7.7 Conclusions 334 .References 335 .8 Nanoassisted Functional Modulation of Enzymes: Concept and Applications 349 Arka Mukhopadhyay and Hirak K. Patra .8.1 Introduction 349 .8.2 Enzyme Modifying Nanomaterials 352 .8.3 Regulations of Enzyme Properties by Several Nanomaterials 365 .8.4 Conclusions 376 .Abbreviations 376 .References 377 .9 Electrospun Fibers Based on Biopolymers 385 Alicia Mujica–Garcia, Agueda Sonseca, Marina P. Arrieta, Maysa Yusef, Daniel López, Enrique Gimenez, José M. Kenny and Laura Peponi .9.1 Electrospinning: Background and Set–up 386 .9.2 Biopolymers 393 .9.3 Electrospinning of Biopolymer Nanofibers 396 .9.4 Electrospun Fibers Based on Biopolymers Blends 408 .9.5 Bionanocomposites Electrospun Fibers 414 .9.6 Conclusions 423 .Acknowledgments 423 .References 424 .10 Nanostructured Materials as Biosensor Transducers: Achievements and Future Developments 439 N.F. Starodub, K.E. Shavanova, N.F. Shpyrka, M.M. Mel nichenko and R.V. Viter .10.1 Introduction 440 .10.2 Biosensors According to the Main Principles of Their Classification 442 .10.3 Ion–selective Field Effect Transistors–based Biosensors: Origins and Perspective Development 446 .10.4 Optical Biosensors 461 .Acknowledgments 488 .References 488 .Part 3 High–tech Surface, Characterisation, and New Applications .11 Optical Emission Spectroscopy Investigation of Direct Current Micro–plasma for Carbon Structures Growth 497 Dana–Cristina Toncu .11.1 Theoretical Background of Optical Emission Spectroscopy in Plasma Diagnosis 498 .11.2 Direct Current Micro–plasma Experimental Investigation for Carbon Structures 500 .11.3 Optical Emission Spectroscopy Results 502 .Acknowledgement 514 .References 515 .12 Advanced Titanium Surfaces and Its Alloys for Orthopedic and Dental Applications Based on Digital SEM Imaging Analysis 517 Sahar A. Fadlallah, Amira S. Ashour and Nilanjan Dey .12.1 Introduction 518 .12.2 Titanium Implants Basic Concepts 521 .12.3 Automated Nanostructures Image Analysis–based Morphology 540 .12.4 Conclusion 550 .References 551 .13 Deep–blue Organic Light–emitting Diodes: From Fluorophores to Phosphors for High–efficiency Devices 561 Frédéric Dumur .13.1 Introduction 591 .13.2 Fluorescent Emitters 565 .13.3 Phosphorescent Emitters 618 .13.4 Future Perspectives and Ongoing Challenges 621 .References 622 .14 Plasma material Interactions Problems and Dust Creation and Re–suspension in Case of Accidents in Nuclear Fusion Plants: A New Challenge for Reactors like ITER and DEMO 635 A. Malizia, L.A. Poggi, J.F. Ciparisse, S. Talebzadeh, M. Gelfusa, A. Murari and P. Gaudio .14.1 Introduction 636 .14.2 Materials for Nuclear Fusion Plants 638 .14.3 Radioactive Dust in Nuclear Fusion Plants: Security Problems in Case of Re–suspension 660 .14.4 Conclusion 687 .References 689 .Index 703
- ISBN: 978-1-119-31415-8
- Editorial: John Wiley & Sons
- Encuadernacion: Cartoné
- Páginas: 736
- Fecha Publicación: 14/10/2016
- Nº Volúmenes: 1
- Idioma: Inglés