Self cleaning Coatings Structure Fabrication and Application 1st Edition by Junhui He 1782622864 9781782622864

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ISBN-10 :  1782622864

ISBN-13 :  9781782622864

Author:  Junhui He  

Recent years have seen fast development in the field of self-cleaning coatings towards varied applications, such as solar cells, flat display panels, smart cellular phones, building windows, oil pipelines, vehicle coatings and optical devices. The field has been rapidly gaining attention, not only from research and teaching scientists, but also from a growing population of college and graduate students. Self-cleaning coatings describes this interesting field, providing details of natural counterparts with self-cleaning functions, theoretical aspects of self-cleaning phenomena, fabrication strategies and methods, applications and industrial impacts. Edited and written by world-renowned scientists in the field, this book will provide an excellent overview of this field and will be of interest to materials and polymer scientists working in industry and academia.

Self cleaning Coatings Structure Fabrication and Application 1st Table of contents:

Chapter 1 The Inspiration of Nature: Natural Counterparts with Self-cleaning Functions
1.1 Introduction
1.2 Theories
1.2.1 Interfacial Wettability
1.2.2 Interfacial Force Disequilibrium
1.3 Self-cleaning Surfaces in Nature
1.3.1 Hydrophobic Self-cleaning Surfaces
1.3.2 Elastic Effects of Tomenta Introduced Self-cleaning Surfaces
1.3.3 Micro/Nanostructured Slippery Surfaces
1.3.4 Hydrophilic and Oleophobic (in Water) Self-cleaning Surfaces
1.3.5 Disequilibrium of Interfacial Force Induced Self-cleaning Surfaces
1.4 Conclusion and Outlook
Acknowledgments
References
Chapter 2 Biological Surface: Lotus Leaves and Butterfly Wings
2.1 Introduction
2.2 The Evolution and Taxonomy of the Lotus and Butterflies
2.2.1 The Lotus
2.2.2 The Butterflies
2.3 Self-cleaning Properties of Lotus Leaves and Butterfly Wings
2.3.1 The Lotus Leaves
2.3.2 Butterfly Wings
2.4 Artificial Self-cleaning Surfaces Inspired by Lotus Leaves and Butterfly Wings
2.5 Conclusion
References
Chapter 3 Transparent Superamphiphobic Coatings: Structure, Fabrication and Perspective
3.1 Introduction
3.2 Superamphiphobic Coatings: Re-entrant and Overhang Surface Structures and Their Effects on Light
3.3 Approaches to Building Superamphiphobic Coatings with High Transmittance
3.3.1 Colloidal Lithography and Plasma Nanotexturing
3.3.2 3-D Diffuser Lithography
3.3.3 Electrospinning
3.3.4 Spray-coating
3.3.5 Micromolding
3.3.6 Micromolding and Spray-coating
3.3.7 Template-based Method
3.3.8 Spin-coating
3.3.9 Layer-by-layer Assembly
3.3.10 Slippery Liquid Infused Porous Surfaces
3.4 Summary and Outlook
Acknowledgments
References
Chapter 4 Superhydrophilic and Superhydrophobic Thin Film Type of Photocatalysts with Self-cleaning
4.1 Introduction
4.2 TiO2 Thin Films for Superhydrophilic Coatings
4.3 Porous Silica Thin Films for Superhydrophilic Coatings
4.4 Nanocomposite Materials for Superhydrophobic Coatings
4.4.1 Superhydrophobic Surface Designed by Catalytic Property of Coated Materials
4.4.2 Superhydrophobic Surface with Photocatalytic Self-cleaning Property
4.5 Summary
References
Chapter 5 Producing Self-cleaning, Transparent and Hydrophobic SiO2-crystalline TiO2 Nanocomposites
5.1 Introduction
5.2 Experimental
5.2.1 Materials
5.2.2 Synthesis of STP Nanocomposites
5.2.3 Characterization of the STP Nanocomposites
5.2.4 Photocatalytic Activity of the STP Nanocomposites
5.2.5 Application and Characterization of the Nanocomposites on Stone Substrates
5.3 Results and Discussion
5.3.1 Composition Characterization
5.3.2 Textural and Microstructural Characterization
5.3.3 Assessment of the STP Photocatalytic Activity
5.3.4 Treatment Assessment of the Nanocomposites
5.4 Conclusion
Acknowledgments
References
Chapter 6 Self-cleaning Coatings on Polymeric Substrates
6.1 Introduction
6.2 Self-cleaning Coatings
6.2.1 Wettability and Photoinduced Hydrophilicity
6.2.2 Photocatalysts and Photocatalysis Mechanism
6.3 Photocatalytically Active Films
6.3.1 Introducing Porosity in TiO2 Film
6.3.2 Modifying TiO2 with Other Metal Oxides
6.4 Photoinduced Superhydrophilicity
6.4.1 Generation of Surface Vacancies
6.4.2 Photo-induced Reconstruction of Ti-OH Bonds
6.4.3 Photocatalytic Decomposition of Organic Adsorbents
6.5 Methods for Preparing Self-cleaning Coatings on Polymer Surfaces
6.6 The Sol–Gel Process
6.7 The Coating Process
6.7.1 Spin Coating
6.7.2 Spray Coating
6.7.3 Dip Coating
6.8 Self-cleaning Coatings on Polycarbonate
6.9 Concluding Remarks
References
Chapter 7 Nanostructured Self-cleaning Coating with Antireflection Properties
7.1 Introduction
7.2 Principle of Nano-structure Antireflection
7.2.1 Basic Concept of Antireflection
7.2.2 The Basis of Multiple Layers on the Substrate
7.2.3 Gradient Refractive Index Coating
7.2.4 The Basis of Antireflection Based on Nanostructure
7.3 Principle of Nano-structure Self-cleaning
7.3.1 Superhydrophobicity
7.3.2 Superhydrophilicity
7.3.3 Photocatalysis-induced Self-cleaning
7.4 Progress in Fabrication Strategies for Nanostructured Antireflective Self-cleaning Coatings
7.4.1 Bottom-up Design Method
7.4.2 Top-down Design Method
7.5 Conclusion and Outlook
References
Chapter 8 Antireflection and Self-cleaning Coatings: Principle, Fabrication and Application
8.1 Introduction
8.2 Theoretical Aspects of Antireflection and Self-cleaning
8.2.1 Principle of Antireflection
8.2.2 Principle of Self-cleaning
8.3 Fabrication Strategies and Methods
8.3.1 Fabrication of Antireflective Surfaces
8.3.2 Fabrication of Self-cleaning Surfaces
8.3.3 Progress in Antireflective Self-cleaning Coatings
8.4 Applications
8.4.1 Architectural Windows and Glasses
8.4.2 Solar Collectors and Photovoltaic Modules
8.4.3 Display Devices
8.5 Conclusion and Outlook
Acknowledgments
References
Chapter 9 Advances in Oil/Water Separation of Biomimetic Superhydrophobic Coatings
9.1 Introduction
9.2 Understanding and Design of the Superhydrophobic Surface
9.2.1 Understanding the Superhydrophobic Surface
9.2.2 Approaches to a Superhydrophobic Surface
9.2.3 Endowing Special Materials with a Superhydrophobic Property
9.3 Various Oil–Water Separations Call for Various Superwettable Materials
9.3.1 The Background of Oil–Water Mixture Formation
9.3.2 Types of Superwettable Surfaces Applied for Immiscible Oil-Water Separations
9.3.3 Superwettable Surface Applied for Emulsified Oil-Water Separations
9.4 The Principles to Optimal Design of Oil-Water Separations Materials
9.5 Summary and Outlook
Acknowledgments
References
Chapter 10 Superhydrophobic/Superhydrophilic Property in Functionally Cooperated Smart Device
10.1 Introduction
10.2 Switch for Smart Motion
10.2.1 Switchable Locomotion in the Horizontal Direction
10.2.2 Switchable Locomotion in the Vertical Direction
10.3 Oil/Water Separation
10.3.1 pH-Responsive Oil/Water Separation
10.3.2 Carbon Dioxide-responsive Oil/Water Separation
10.3.3 Photoswitchable Oil/Water Separation
10.3.4 Magnetically-driven Oil/Water Separation
10.4 Smart Ion Channels
10.5 Smart Permeability
10.6 Bio-applications
10.7 Outlook

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