Controlled Surface Wetting
portes grátis
Controlled Surface Wetting
From Bioinspiration to Applications
Zheng, Yongmei
Wiley-VCH Verlag GmbH
04/2025
320
Dura
Inglês
9783527352890
Pré-lançamento - envio 15 a 20 dias após a sua edição
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1. WETTING-CONTROLLED SYSTEMS OF BIOLOGICAL SURFACES
1.1 Introduction
1.2 Wetting features of biological surfaces
1.3 Anti-wetting features of biological surfaces
1.4 Biological patterns on micro- and nano-scale structures
1.5 Wetting-controlled effects
2. MECHANISM AND THEORY OF WETTING-CONTROLLED SURFACES
2.1 Concept of wetting-controlled effects
2.2 Wetting theory of surfaces
2.3 Physics of Wetting
2.4 Surface chemistry and structures
2.5 Bioinspired wetting-controlled mechanism
2.6 Self-propelling effects of surfaces
2.7 Capillary force
2.8 Liquid-infused surfaces
3. DESIGN ON SURFACES WITH WETTING-CONTROLLED EFFECTS
3.1 Concept of gradient
3.2 Chemistry gradient
3.3 Texture gradient
3.4 Geometrical gradient
3.5 Synergism of multi-gradients
3.6 Surface tension gradient
4. DEVELOPMENT ON BIOINSPIRED FABRICATION AND METHODS
4.1 Rayleigh instability
4.2 Microfluids
4.3 Fluid-coatings
4.4 Electrospinning
4.5 Electrochemisty
4.6 Nanotechnology
4.7 Fluid diffusion in gradient
4.8 Green printing technology
4.9 Laser etching
4.10 Laser treatment
4.11 Plasma activation
4.12 Plasma-based coating technology
4.13 Other dry etching
5. WETTING-CONTROLLED EFFECTS FOR FUNCTIONS AND APPLICATIONS
5.1 Condensate droplet transport
5.2 Fogdroplet harvesting
5.3 Atmospheric water harvesting
5.4 Anti-icing
5.5 Liquid repellency
5.6 Energy harvesting
5.7 Heat transfer
5.8 Nanofluid generator
5.9 Artificial skin
5.10 Drug delivery
5.11 Sensor
5.12 Inhibition of the virus
5.13 Growth and inhibition of cells
5.14 Other biomaterials
6. SUMMARY
1.1 Introduction
1.2 Wetting features of biological surfaces
1.3 Anti-wetting features of biological surfaces
1.4 Biological patterns on micro- and nano-scale structures
1.5 Wetting-controlled effects
2. MECHANISM AND THEORY OF WETTING-CONTROLLED SURFACES
2.1 Concept of wetting-controlled effects
2.2 Wetting theory of surfaces
2.3 Physics of Wetting
2.4 Surface chemistry and structures
2.5 Bioinspired wetting-controlled mechanism
2.6 Self-propelling effects of surfaces
2.7 Capillary force
2.8 Liquid-infused surfaces
3. DESIGN ON SURFACES WITH WETTING-CONTROLLED EFFECTS
3.1 Concept of gradient
3.2 Chemistry gradient
3.3 Texture gradient
3.4 Geometrical gradient
3.5 Synergism of multi-gradients
3.6 Surface tension gradient
4. DEVELOPMENT ON BIOINSPIRED FABRICATION AND METHODS
4.1 Rayleigh instability
4.2 Microfluids
4.3 Fluid-coatings
4.4 Electrospinning
4.5 Electrochemisty
4.6 Nanotechnology
4.7 Fluid diffusion in gradient
4.8 Green printing technology
4.9 Laser etching
4.10 Laser treatment
4.11 Plasma activation
4.12 Plasma-based coating technology
4.13 Other dry etching
5. WETTING-CONTROLLED EFFECTS FOR FUNCTIONS AND APPLICATIONS
5.1 Condensate droplet transport
5.2 Fogdroplet harvesting
5.3 Atmospheric water harvesting
5.4 Anti-icing
5.5 Liquid repellency
5.6 Energy harvesting
5.7 Heat transfer
5.8 Nanofluid generator
5.9 Artificial skin
5.10 Drug delivery
5.11 Sensor
5.12 Inhibition of the virus
5.13 Growth and inhibition of cells
5.14 Other biomaterials
6. SUMMARY
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
1. WETTING-CONTROLLED SYSTEMS OF BIOLOGICAL SURFACES
1.1 Introduction
1.2 Wetting features of biological surfaces
1.3 Anti-wetting features of biological surfaces
1.4 Biological patterns on micro- and nano-scale structures
1.5 Wetting-controlled effects
2. MECHANISM AND THEORY OF WETTING-CONTROLLED SURFACES
2.1 Concept of wetting-controlled effects
2.2 Wetting theory of surfaces
2.3 Physics of Wetting
2.4 Surface chemistry and structures
2.5 Bioinspired wetting-controlled mechanism
2.6 Self-propelling effects of surfaces
2.7 Capillary force
2.8 Liquid-infused surfaces
3. DESIGN ON SURFACES WITH WETTING-CONTROLLED EFFECTS
3.1 Concept of gradient
3.2 Chemistry gradient
3.3 Texture gradient
3.4 Geometrical gradient
3.5 Synergism of multi-gradients
3.6 Surface tension gradient
4. DEVELOPMENT ON BIOINSPIRED FABRICATION AND METHODS
4.1 Rayleigh instability
4.2 Microfluids
4.3 Fluid-coatings
4.4 Electrospinning
4.5 Electrochemisty
4.6 Nanotechnology
4.7 Fluid diffusion in gradient
4.8 Green printing technology
4.9 Laser etching
4.10 Laser treatment
4.11 Plasma activation
4.12 Plasma-based coating technology
4.13 Other dry etching
5. WETTING-CONTROLLED EFFECTS FOR FUNCTIONS AND APPLICATIONS
5.1 Condensate droplet transport
5.2 Fogdroplet harvesting
5.3 Atmospheric water harvesting
5.4 Anti-icing
5.5 Liquid repellency
5.6 Energy harvesting
5.7 Heat transfer
5.8 Nanofluid generator
5.9 Artificial skin
5.10 Drug delivery
5.11 Sensor
5.12 Inhibition of the virus
5.13 Growth and inhibition of cells
5.14 Other biomaterials
6. SUMMARY
1.1 Introduction
1.2 Wetting features of biological surfaces
1.3 Anti-wetting features of biological surfaces
1.4 Biological patterns on micro- and nano-scale structures
1.5 Wetting-controlled effects
2. MECHANISM AND THEORY OF WETTING-CONTROLLED SURFACES
2.1 Concept of wetting-controlled effects
2.2 Wetting theory of surfaces
2.3 Physics of Wetting
2.4 Surface chemistry and structures
2.5 Bioinspired wetting-controlled mechanism
2.6 Self-propelling effects of surfaces
2.7 Capillary force
2.8 Liquid-infused surfaces
3. DESIGN ON SURFACES WITH WETTING-CONTROLLED EFFECTS
3.1 Concept of gradient
3.2 Chemistry gradient
3.3 Texture gradient
3.4 Geometrical gradient
3.5 Synergism of multi-gradients
3.6 Surface tension gradient
4. DEVELOPMENT ON BIOINSPIRED FABRICATION AND METHODS
4.1 Rayleigh instability
4.2 Microfluids
4.3 Fluid-coatings
4.4 Electrospinning
4.5 Electrochemisty
4.6 Nanotechnology
4.7 Fluid diffusion in gradient
4.8 Green printing technology
4.9 Laser etching
4.10 Laser treatment
4.11 Plasma activation
4.12 Plasma-based coating technology
4.13 Other dry etching
5. WETTING-CONTROLLED EFFECTS FOR FUNCTIONS AND APPLICATIONS
5.1 Condensate droplet transport
5.2 Fogdroplet harvesting
5.3 Atmospheric water harvesting
5.4 Anti-icing
5.5 Liquid repellency
5.6 Energy harvesting
5.7 Heat transfer
5.8 Nanofluid generator
5.9 Artificial skin
5.10 Drug delivery
5.11 Sensor
5.12 Inhibition of the virus
5.13 Growth and inhibition of cells
5.14 Other biomaterials
6. SUMMARY
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
