Fr. 168.00

Nature-Inspired Structured Functional Surfaces - Design, Fabrication, Characterization, and Applications

English · Hardback

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Description

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Gives a comprehensive description on the biological model, basic physical models, fabrication/characterization of bioinspired materials and their functions.

List of contents

Preface
 
INTRODUCTION OF NATURE INSPIRED FUNCTIONAL STRUCTURE SURFACE
Bionics is Boosting Advanced Materials
Definition and Classification of NIFSS
Typical Prototypes with Structural Surfaces
 
CHARACTERIZATION, ANALYSIS, MODELING, AND PREPARATION OF NIFSS
Characterization Techniques and Analysis Methods of NIFSS
Modeling and Simulation Methods for Assistant Bionic Design of NIFSS
Design Principles and Fabrication Methods of NIFSS
 
BIO-INSPIRED LIGHT TRAPPING STRUCTURE SURFACES
Definition and Classification of Light Trapping Structure
Ultraviolet Light-Trapping Structures Derived from Parnassius Butterfly Wings
Light Trapping Surfaces for Visible Light Inspired by Butterfly Wings
 
TRANSPARENT ANTIREFLECTIVE (AR) SURFACES INSPIRED BY CICADA WINGS
High Transparent Antireflective (AR) Surfaces of Original Cicada Wings
Accurate Fabrication of Cicada-Inspired AR Surfaces
Large Area Preparation of Cicada Inspired AR Surfaces
Intelligent AR Cicada-Inspired Structures
 
BIO-INSPIRED ANTIFOGGING (AF) SURFACES
Wettability-Induced AF Theories
Dynamic Wettability: Contact Angle Hysteresis and Sliding Angles
Definition and Classification of AF Surfaces
AF Surfaces Inspired by Butterfly Wings
Structural AF Surfaces Inspired by Mayfly Compound Eyes
 
STRUCTURE COLOR SURFACES INSPIRED BY BUTTERFLY WINGS
Definition of Structure Color Surfaces
Structure Color Surfaces on Butterfly Wings
Fabrication of the Butterfly-Inspired Structure Color Materials
Applications of the Structure Color Materials
 
BIO-INSPIRED OIL-WATER SEPARATION MATERIALS
Definition and Classification of Oil-Water Separation Materials
Oil-Water Separation Materials Inspired by Butterfly Wings
Oil-Water Separation Materials Inspired by Fish Scales
 
UNDERWATER BIO-INSPIRED SUPERHYDROPHOBIC MULTIFUNCTION SURFACE
Underwater Writable and Heat-Insulated Superhydrophobic Paper
Biosinpired, Superhydrophobic, and Paper-Based Strain Sensors for Wearable and Underwater Applications
Underwater Superhydrophobic Air Film Reduce Resistance
 
BIO-INSPIRED RESPONSIVE SURFACES TOWARD MULTIPLE ORGANIC VAPORS
Responsive Performance of Morpho Butterfly Wings
Fabrication of Butterfly-Inspired Structural Responsive Surfaces
Characterizations of Butterfly-Inspired Structural Responsive Surfaces
Responsive Performance of NIFSS Towards Multiple Organic Vapors
 
PROSPECT AND OUTLOOK
 
Index

About the author

Zhiwu Han is currently a professor at Jilin University and Dean of Key Laboratory of Bionic Engineering (Ministry of Education), Jilin University, China. He is also Director of National and Local Joint Engineering Laboratory of Bionics Engineering. He has been a visting scholar at Oxford University and Nottingham University from 2004-2006. Professor Han has authored over 200 scientific publications in Nature, Advanced Materials, Materials Today, ACS Nano etc. He has also received numerous scientific awards, including the Excellent Contribution Award and so on. He is the distinguished professor of "Chang Jiang scholars program" and the Foundation Director of the Innovative Research Groups of the National Natural Science Foundation of China.

Product details

Authors Zhiwu Han
Publisher Wiley-VCH
 
Languages English
Product format Hardback
Released 01.08.2022
 
EAN 9783527350216
ISBN 978-3-527-35021-6
No. of pages 320
Dimensions 177 mm x 20 mm x 254 mm
Weight 758 g
Illustrations 9 SW-Abb., 36 Farbabb.
Subjects Natural sciences, medicine, IT, technology > Chemistry

Chemie, Biochemische Verfahrenstechnik, chemistry, Biomaterial, Chemical Engineering, chemische Verfahrenstechnik, Biomedical engineering, Biomaterials, Biochemical Engineering, Surface & Colloid Chemistry, Oberflächen- u. Kolloidchemie, Thin Films, Surfaces & Interfaces, Biomedizintechnik, Biomaterialien, Funktionalisierte Oberflächen

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