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Handbook of Self-Cleaning Surfaces and Materials
From Fundamentals to Applications
Akira Fujishima,Hiroshi Irie,Xintong Zhang,Donald A. Tryk
- English
- PDF
- Disponibile su iOS e Android
Handbook of Self-Cleaning Surfaces and Materials
From Fundamentals to Applications
Akira Fujishima,Hiroshi Irie,Xintong Zhang,Donald A. Tryk
Informazioni sul libro
Handbook of Self-Cleaning Surfaces and Materials
The first truly comprehensive work on this rapidly developing field in two volumes
Self-cleaning surfaces are those that can be cleaned, for instance, by sun or rainwater, without human intervention. They are sometimes found in nature but developing man-made equivalents has been a major area of nanotechnology research in recent years. Self-cleaning tiles, glasses, paints, and textiles have been
developed to date, and the number of applications for this technology is growing.
Handbook of Self-Cleaning Surfaces and Materials provides a comprehensive overview of this field of study. It includes two volumes, with the first presenting the basic principles of the field and the second supplying specific examples and applications. It is a one-stop shop for anyone looking to familiarize themselves with this area of technological research, as well as for existing professionals who want a handy and thorough reference.
Readers of the Handbook of Self-Cleaning Surfaces and Materials will also find:
- An editor and contributor team with decades of experience in both academic and industrial research
- Detailed treatment of subjects including TiO 2 photocatalysis, hydrophobic self-cleaning surfaces, and more
- Figures throughout illustrating important concepts and chemical formulas
Handbook of Self-Cleaning Surfaces and Materials is an essential resource for researchers and industry professionals in chemistry, surface physics, and materials science.
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Informazioni
Indice dei contenuti
- Cover
- Title Page
- Copyright
- Contents
- Preface
- Chapter 1 Introduction: Photoprocesses Overview
- Chapter 2 Mechanisms of Photoinduced Oxidative Decomposition
- Chapter 3 Reaction Mechanisms for TiO2 Powder Photocatalyzed Systems
- Chapter 4 Mechanism of Photo‐Induced Superhydrophilicity
- Chapter 5 Theoretical Investigation on Optical Signatures and Photochemical Properties of Photocatalytic TiO2 Surfaces
- Chapter 6 Scientific Evaluation Methods in Photocatalysis Studies
- Chapter 7 Photocatalyst Activity Indicator Inks (Paii's)
- Chapter 8 Fabrication of TiO2 Thin Films by Solution Processes and Preparation of Coating Solutions
- Chapter 9 Morphology Control of TiO2 Particles Toward Highly Active Decomposition Under UV or Visible Light
- Chapter 10 Development of Visible‐Light‐Driven Super‐Hydrophilic Thin Film
- Chapter 11 Nitrogen Doping into TiO2 and Loading of Co‐Catalysts for Enhanced Photocatalysis Under Visible‐Light Irradiation
- Chapter 12 Electronic States in Pure and Doped Anatase TiO2: A Theoretical Perspective
- Chapter 13 Visible‐Light Photocatalysis by Two‐Center Surface Coordination Complexes with Titania as Ligand
- Chapter 14 Metal Ion Grafts Toward Visible‐Light Response
- Chapter 15 Self‐Cleaning Surfaces in Plants: The Discovery of the Lotus Effect as a Key Innovation for Biomimetic Technologies
- Chapter 16 Self‐Cleaning Property of Plant Leaves and Bioinspired Super Unwetting Surfaces
- Chapter 17 Self‐Cleaning Dry Adhesives
- Title Page
- Copyright
- Contents
- Preface
- Chapter 18 Self‐Cleaning Glass in Urban Environment
- Chapter 19 Self‐Cleaning Glass
- Chapter 20 NbxOy Nanosheet Film for Self‐Cleaning Glass
- Chapter 21 Self‐Cleaning‐Coated Fabrics for Architectural Membrane Structures
- Chapter 22 Photocatalytic‐Mediated Self‐Cleaning of Natural and Artificial Fibers Under Daylight Irradiation at Ambient Temperature
- Chapter 23 Application of Self‐Cleaning Ceramic and Glass Insulators for Electricity Transmission
- Chapter 24 TiO2–Ag Antibacterial Coatings for Biomedical Uses
- Chapter 25 TiO2 Nanotubes and Their Photocatalytic Applications
- Chapter 26 No Ice Left Behind
- Chapter 27 Surface Factors for Static/Dynamic Hydrophobicity and Their Evaluation
- Chapter 28 Superhydrophobic Anticorrosion Coating
- Chapter 29 Regenerable Hydrophobic–Hydrophilic Patterned Surfaces for Printing
- Index
- EULA