Stimuli Responsive Dewetting Wetting Smart Surfaces And Interfaces

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Stimuli-Responsive Dewetting/Wetting Smart Surfaces and Interfaces

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.
Multi-scale and Multifunctional Coatings and Interfaces for Tribological Contacts

This book covers developments in multi-scale and multifunctional coatings, including strategies in the preparation, characterization, and properties of both thin and thick multifunctional coatings along with their corresponding application. Various technologies for processing, characterization, and tribology effects of various coating surfaces and interfaces are discussed. It describes smart surfaces like piezoelectric materials, shape memory alloys, shape memory ceramics, magnetostrictive materials, electrostrictive materials, dielectric materials, and advanced ceramics. Explains multifunctional materials with respect to their tribology behavior at surface and interface. Covers analysis techniques for multifunctional surfaces and interfaces. Discusses emerging applications of multifunctional surfaces. Explores multifunctionality of thin films as well as thick coatings. This book is aimed at graduate students and researchers in metallurgical engineering, materials science, and nanosciences.
Handbook of Magnetic Hybrid Nanoalloys and their Nanocomposites

This comprehensive reference work satisfies the need for in-depth and multidisciplinary coverage of the current state of the art of magnetic hybrid nanoalloys (MHNAs) and their polymer and ceramic nanocomposites. MHNAs represent one of the most challenging research areas in modern science and technology. These materials are stiff and strong with remarkable electronic, mechanical, electrical, thermal and biocompatible properties, and a high potential for multifunctional applications ranging from industry to medicine. The peer-reviewed literature is already extensive, witnessing rapid progress in experimental and theoretical studies on fundamental properties as well as various advanced applications. Part 1 covers theory, modelling, and synthesis (growth and alloying mechanisms) of MHNAs. Formation mechanisms of magneto-electric multiferroic materials, magnetic carbon nanotube (CNTs), and perovskite materials, which are a novel class of next-generation multifunctional nanomaterials, are discussed. The second part focuses on characterization techniques for electrical and dielectrical, rheological, biocompatibility, and other properties, as well as applications in the industrial, agricultural, environmental, and biomedical sectors. Finally, life cycle assessment is considered as essential to the development of nanomaterials and nanoproducts from MHNAs. Advanced undergraduate and graduate students, researchers, and other professionals in the fields of materials science and engineering, polymer science, surface science, bioengineering, and chemical engineering will find comprehensive and authoritative information for solving fundamental and applied problems in the characterization and use of these multifunctional nanomaterials.