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Stimuli-responsive dewetting/wetting...

Hozumi, Atsushi.

Stimuli-responsive dewetting/wetting smart surfaces and interfaces

Record Type:	Electronic resources : Monograph/item
Title/Author:	Stimuli-responsive dewetting/wetting smart surfaces and interfacesedited by Atsushi Hozumi ... [et al.].
other author:	Hozumi, Atsushi.
Published:	Cham :Springer International Publishing :2018.
Description:	xi, 464 p. :ill., digital ;24 cm.
Contained By:	Springer eBooks
Subject:	Smart materials.
Online resource:	https://doi.org/10.1007/978-3-319-92654-4
ISBN:	9783319926544$q(electronic bk.)

Stimuli-responsive dewetting/wetting smart surfaces and interfaces
Stimuli-responsive dewetting/wetting smart surfaces and interfaces[electronic resource] /edited by Atsushi Hozumi ... [et al.]. - Cham :Springer International Publishing :2018. - xi, 464 p. :ill., digital ;24 cm. - Biologically-inspired systems,v.112211-0593 ;. - Biologically-inspired systems ;v.5..

Chapter1. Introduction of Stimuli-Responsive Wetting/Dewetting Smart Surfaces and Interfaces -- Part 1. Stimuli-Responsive Dewetting/Wetting Surfaces/Interfaces. Chapter 2. Photo-Responsive Superwetting Surface -- Chapter 3. pH Responsive Reversibly Tunable Wetting Surfaces -- Chapter 4. Thermal-Responsive Superwetting Surface -- Chapter 5. Electric-Responsive Superwetting Surface -- Chapter6. Liquids on Shape-Tunable Wrinkles -- Chapter7. Solvent Response -- chapter8. Magnetic-Responsive Superwetting Surface -- Part 2. Practical Applications. chapter 9. Stimuli-Responsive Smart Surfaces for Oil/Water Separation Applications -- Chapter 10. Anti-(bio)Fouling -- Chapter 11. Toward Eadaptive Anti-icing Coating -- Chapter 12. Stimulus-Responsive Soft Surface/Interface Toward Applications in Adhesion, Sensor and Biomaterial -- Chapter 13. Liquid manipulation -- Chapter14. Material-Independent Surface Modification Inspired by Principle of Mussel Adhesion -- Chapter 15. Stimuli-Responsive Mussel-inspired Polydopamine Material.

Superhydrophobic surfaces, artificially mimicking lotus leaves, have captured the attention of scientists and engineers over the past few decades. Recent trends have shifted from superhydrophobicity to superominipohobicity, or superamphiphobicity. In addition, dynamic rather than static surface wetting/dewetting properties, which can be triggered by various stimuli, including temperature, pH, magnetic/electric fields, solvents, light exposure etc, have been highly sought after for commercial applications. This book will focus on recent topics related to various stimuli-responsive wetting/dewetting surfaces, and give an overview of the knowledge and concepts of how to design and establish these smart artificial surfaces, which can be used for technical developments in a wide variety research fields.

ISBN: 9783319926544$q(electronic bk.)

Standard No.: 10.1007/978-3-319-92654-4doiSubjects--Topical Terms:

184739
Smart materials.

LC Class. No.: TA418.9.S62 / S756 2018

Dewey Class. No.: 620.112

Stimuli-responsive dewetting/wetting smart surfaces and interfaces
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505 0 $a Chapter1. Introduction of Stimuli-Responsive Wetting/Dewetting Smart Surfaces and Interfaces -- Part 1. Stimuli-Responsive Dewetting/Wetting Surfaces/Interfaces. Chapter 2. Photo-Responsive Superwetting Surface -- Chapter 3. pH Responsive Reversibly Tunable Wetting Surfaces -- Chapter 4. Thermal-Responsive Superwetting Surface -- Chapter 5. Electric-Responsive Superwetting Surface -- Chapter6. Liquids on Shape-Tunable Wrinkles -- Chapter7. Solvent Response -- chapter8. Magnetic-Responsive Superwetting Surface -- Part 2. Practical Applications. chapter 9. Stimuli-Responsive Smart Surfaces for Oil/Water Separation Applications -- Chapter 10. Anti-(bio)Fouling -- Chapter 11. Toward Eadaptive Anti-icing Coating -- Chapter 12. Stimulus-Responsive Soft Surface/Interface Toward Applications in Adhesion, Sensor and Biomaterial -- Chapter 13. Liquid manipulation -- Chapter14. Material-Independent Surface Modification Inspired by Principle of Mussel Adhesion -- Chapter 15. Stimuli-Responsive Mussel-inspired Polydopamine Material.
520 $a Superhydrophobic surfaces, artificially mimicking lotus leaves, have captured the attention of scientists and engineers over the past few decades. Recent trends have shifted from superhydrophobicity to superominipohobicity, or superamphiphobicity. In addition, dynamic rather than static surface wetting/dewetting properties, which can be triggered by various stimuli, including temperature, pH, magnetic/electric fields, solvents, light exposure etc, have been highly sought after for commercial applications. This book will focus on recent topics related to various stimuli-responsive wetting/dewetting surfaces, and give an overview of the knowledge and concepts of how to design and establish these smart artificial surfaces, which can be used for technical developments in a wide variety research fields.
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