
Handbook of Modern Coating Technologies
Applications and Development
- 1st Edition - March 6, 2021
- Imprint: Elsevier
- Editors: Mahmood Aliofkhazraei, Ali Nasar, Mircea Chipara, Nadhira Bensaada Laidani, Jeff Th.M. De Hosson
- Language: English
- Hardback ISBN:9 7 8 - 0 - 4 4 4 - 6 3 2 3 7 - 1
- eBook ISBN:9 7 8 - 0 - 4 4 4 - 6 3 2 4 3 - 2
Handbook of Modern Coating Technologies: Application and Development reviews recent applications and developments of modern coating technologies. The topics in this volume cons… Read more

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Request a sales quoteHandbook of Modern Coating Technologies: Application and Development reviews recent applications and developments of modern coating technologies. The topics in this volume consist of role of antibacterial coatings in the development of biomaterials, insights of technologies for self-healing organic coatings, sensor applications, application of carbon nanotubes–based coating in the field of art conservation, oxide-based self-cleaning and corrosion-protective coatings, protective coatings for wood, applications of optical coatings on spectral selective structures, application of natural antimicrobial coating for controlling foodborne pathogens on meat and fresh produce, efficacy of antimicrobial coating in reducing pathogens on meat, composite membrane: fabrication, characterization, and applications, development of nanostructured HVOF coatings on high strength steel components for turbine blades, nanoscale multilayered composite coating, applications of sol–gel coatings, application of graphene in protective coating industry, application of coatings in outdoor high-voltage installations, defects and doping effects in thin films of transparent and conductive oxides, and functional coatings for lab-on-a-chip systems based on phospholipid polymers.
Surface scientists and research students in the area of nano-coatings and their applications. Chemists, chemical engineers and material scientists as well as coating engineers in industry
- Cover image
- Title page
- Table of Contents
- Copyright
- List of contributors
- About the editors
- Preface
- 1. The role of antibacterial coatings in the development of biomaterials
- Abstract
- 1.1 Introduction
- 1.2 Strategies of antibacterial coatings
- 1.3 Conclusions
- References
- 2. Insights of technologies for self-healing organic coatings
- Abstract
- 2.1 Introduction
- 2.2 Purposes of coatings
- 2.3 Recent challenges in front of coatings
- 2.4 Definition of self-healing
- 2.5 Requirement of self-healing coatings
- 2.6 Strategies of techniques in self-healing of organic coatings
- 2.7 Capsule-based self-healing technique
- 2.8 Techniques of encapsulation
- 2.9 Chemical methods
- 2.10 Interfacial polymerization
- 2.11 In situ polymerization
- 2.12 Emulsion polymerization
- 2.13 Physico–chemical processes
- 2.14 Coacervation process
- 2.15 Layer-by-layer assembly
- 2.16 Sol–gel encapsulation
- 2.17 Physico–mechanical process
- 2.18 Multiple nozzle spraying
- 2.19 Fluid-bed encapsulation
- 2.20 Centrifugal techniques
- 2.21 Vacuum encapsulation
- 2.22 Electrostatic encapsulation
- 2.23 Healing agents
- 2.24 Merits and demerits of encapsulation technique
- 2.25 Vascular-based self-healing technique
- 2.26 Intrinsic-based self-healing technique
- 2.27 Reversible covalent bond formation
- 2.28 Irreversible covalent bond formation
- 2.29 Supramolecular self-assembly
- 2.30 Future perspectives of technologies in self-healing coatings
- 2.31 Web reference
- References
- Further reading
- 3. Challenges of sensor development based on thin film technology
- Abstract
- 3.1 Introduction
- 3.2 Basics of thin film sensors
- 3.3 Sample applications
- 3.4 Conclusions
- References
- 4. Application of carbon nanotubes–based coating in the field of art conservation: the IMAT project and the development of new mild heat transfer technology
- Abstract
- 4.1 Introduction
- 4.2 Early works: electrically heated mats
- 4.3 Heating systems based on nanomaterials
- 4.4 The IMAT Project: application of carbon nanotubes for art preservation
- 4.5 The basic component of IMAT system: appositely devised carbon nanotubes
- 4.6 Conceptual design
- 4.7 IMAT prototypes design and manufacturing
- 4.8 Including electrodes and sensors in the heater design
- 4.9 Control and power unit console
- 4.10 Experimental testing
- 4.11 Applications
- 4.12 Conclusions and future applications
- References
- 5. Oxide-based self-cleaning and corrosion protective coatings
- Abstract
- 5.1 Introduction
- 5.2 Sol–gel coating
- 5.3 Hydrophilic/hydrophobic coating
- 5.4 Self-cleaning coating
- 5.5 Corrosion-resistant oxide coatings
- 5.6 Future prospective
- Acknowledgment
- References
- 6. Protective coatings for wood
- Abstract
- 6.1 Introduction: wood products sector
- 6.2 General background
- 6.3 Bio-based products for protective wood coatings
- 6.4 Protective wood coatings based on nanocomposite materials
- 6.5 Concluding remarks and future trends
- Acknowledgements
- References
- 7. Applications of optical coatings on spectral selective structures
- Abstract
- 7.1 Introduction
- 7.2 Wavelength division components based on Fabry–Perot type of filter arrays
- 7.3 Fractal independently tunable multichannel filters
- 7.4 Broadband perfect absorbers
- 7.5 Solar selective absorbers
- 7.6 Blue filters for white-LED-based visible light communication systems
- References
- 8. Application of natural antimicrobial coating for controlling food-borne pathogens on meat and fresh produce
- Abstract
- 8.1 Introduction
- 8.2 Microbial contamination of food products
- 8.3 Edible coating
- 8.4 Antimicrobials used in coating matrices
- 8.5 Efficacy of antimicrobial coating in reducing pathogens on meat
- 8.6 Efficacy of antimicrobial coating in reducing pathogens on fresh produce
- 8.7 New advancements in coating technology
- 8.8 Conclusion
- References
- 9. Composite membrane: fabrication, characterization, and applications
- Abstract
- 9.1 Introduction
- 9.2 Various parameters of processing of composite membrane through coating
- 9.3 Conclusions
- References
- 10. Development of nano-WC-Co-Cr HVOF coatings on high strength steel components for turbine blades
- Abstract
- 10.1 Introduction
- 10.2 Coatings applied on products, equipment used
- 10.3 Critical parameters affecting the processing conditions with a special focus on turbine blades and the mechanism of surface activation
- 10.4 Thermal spray coatings have the following advantages, disadvantages, and application
- References
- 11. Nanoscale multilayered composite coating—applications for ecomachining
- Abstract
- 11.1 Introduction
- 11.2 Physical model of cutting system developed to compensate cutting fluid’s physical effects
- 11.3 Methodology and results of experimental studies of efficiency of environmentally friendly cutting system
- 11.4 Conclusions
- Acknowledgments
- References
- 12. Applications of sol–gel coatings: past, present, and future
- Abstract
- 12.1 Introduction
- 12.2 Patent landscape analysis
- 12.3 Applications of sol–gel coatings
- 12.4 Conclusions
- Acknowledgment
- References
- 13. Application of graphene in protective coating industry: prospects and current progress
- Abstract
- 13.1 Introduction
- 13.2 Potential coating areas of graphene derivatives
- 13.3 Recent progress of graphene in surface coatings
- 13.4 Summary
- Acknowledgments
- References
- 14. Application of coatings in outdoor high-voltage installations
- Abstract
- 14.1 Introduction
- 14.2 The base polymer, room temperature vulcanized formulation, and additives
- 14.3 Case study: the Greek island of Crete
- 14.4 Key remarks
- 14.5 Conclusions
- References
- 15. Defects and doping effects in TiO2 and ZnO thin films of transparent and conductive oxides
- Abstract
- 15.1 Introduction
- 15.2 Types of transparent conductive oxide and nonoxide materials
- 15.3 Doping of TiO2 for transparent conductive oxide films
- 15.4 Doping of ZnO for transparent conductive oxide films
- 15.5 Defects and doping in transparent conductive oxides
- 15.6 Use of positron annihilation spectroscopy for detection of vacancies and open volume defects in TiO2 and TiO2: Nb films
- 15.7 Concluding remarks
- References
- 16. Functional coatings for lab-on-a-chip systems based on phospholipid polymers
- Abstract
- 16.1 Lab-on-a-chip systems
- 16.2 MPC polymers
- 16.3 MPC polymer coatings for glass lab-on-a-chip devices
- 16.4 MPC polymer coatings for PDMS and other polymer-based lab-on-a-chip systems
- 16.5 MPC polymer coatings for regulation of electroosmotic flows in microchannels
- 16.6 MPC polymer coatings for chip-based enzyme-linked immunosorbent assay
- 16.7 MPC polymer coatings for microchip electrophoresis of proteins
- 16.8 MPC polymer coatings for DNA detection in nanochannels
- 16.9 Conclusions and perspectives
- Acknowledgments
- References
- Index
- Edition: 1
- Published: March 6, 2021
- Imprint: Elsevier
- No. of pages: 636
- Language: English
- Hardback ISBN: 9780444632371
- eBook ISBN: 9780444632432
MA
Mahmood Aliofkhazraei
AN
Ali Nasar
MC
Mircea Chipara
NB
Nadhira Bensaada Laidani
JD