Smart coatings

In the past few years, in part fueled by nano-science and nano-technology, coatings research has taken a new turn. The new direction has also been due to the development and availability of new raw materials, innovative particles, polyelectrolytes, liquid crystals, conductive polymers, as well as large families of stimuli responsive polymer systems. Other research and development contributions have been in raw material design, including polymers made through Atom Transfer Radical Polymerization (ATRP), layer-by layer, self-assembly, supramolecules and novel polymer bound additives. Along with the availability of new raw materials innovative technologies for design and formulating novel coatings have also be developed. A major challenge today for material scientists is to develop technologies that can produce novel coating products with extended lifetime, increased safety and perhaps with little or no maintenance. Such an objective may be achieved by designing and developing coating systems that can self-repair. The first section of the Smart Coatings III begins with self-healing technology that is one of the most sought after areas of research world wide. The theme of stimuli responsive coatings continues with other three articles in this section. The second section deals with new platform technologies on smart coatings and their characterization. The last section of the book follows the theme of smart surfaces since the coatings modify the surface properties imparting them special characteristics while performing the traditional coating functions. This book will encourage scientific and technological investigators to expand knowledge to commercially relevant coating systems.

• Preface
• Stimuli Responsive Coatings
• 1. Design and Development of Self-Healing Polymers and Coatings
• Jamil Baghdachi, Heidi Perez, and Amit Shah
• 2. Tethered Stimuli-Responsive Polymer Films
• Keisha B. Walters
• 3. Preparation of a Delivery System for Smart Coatings by Electrostatic Deposition
• Harvey A. Liu, Bruce E. Gnade, and Kenneth J. Balkus, Jr.
• 4. Smart Self-Healing Material Systems Using Inductive and Resistive Heating
• Terrisa Duenas, Andrew Enke, Karen Chai, Matt Castellucci, Vishnu Baba Sundaresan, Fred Wudl, Erin B. Murphy, Ajit Mal, James R. Alexandar, Aaron Corder, and Teng K. Ooi
• Smart Polymers
• 5. Design and Synthesis of Living-Free Electroactive Dendron End-Functionalized Macromolecules: Surface Grafting Studies
• Rigoberto C. Advincula and Maria Celeste Tria
• 6. Formation of Photo-Responsive Surfaces by Surface-Initiated Ring Opening Metathesis Polymerization and Atom Transfer Radical Polymerization: Reversible Optodes for Metal Ion Sensors
• Satyabrata Samanta, Kristen Fries, Sara Orski, and Jason Locklin
• 7. Smart Polyurethane Surfaces from Tethered Dendritic Polyols
• Ravi G. Joshi, Achin Goel, and Vijay M. Mannari
• 8. Surface Characterization of Binary Graft Copolymers (PP-g-DMAEMA)-g-NIPAAm and (PP-g-4VP)-g-NIPAAm by Using SEM and AFM
• H. I. Melendez-Ortiz, E. Bucio, T. Isoshima, and M. Hara
• vii 9. Surface Electrostatic Interactions: Effect of Protein Purification in a Thin Polysaccharide Film Adsorbed on a Solid Support
• Neoli Lucyszyn, Adriana F. Lubambo, Jorge J. Klein, Wido H. Schreiner, Paulo C. de Camargo, and Maria R. Sierakowski
• Smart Surfaces
• 10. Multi-Functional Electroactive Polymers (EAPs) as Alternatives for Cadmium Based Coatings
• P. Zarras, A. Guenthner, D. J. Irvin, J. D. Stenger-Smith, S. Hawkins, L. Baldwin, R. Quintana, M. Baronowski, J. Baronowski, J. Hibbs, and C. P. Waltz
• 11. Polypyrrole/Aluminum Flake Hybrids as Corrosion Inhibitors for Aluminum 2024-T3
• Christopher Vetter, Katherine Gohmann, Alice C. Harper, and Victoria Johnston Gelling
• 12. Development of Corrosion Protection Coatings for AA2024-T3 Using Micro-Encapsulated Inhibitors
• D. Raps, T. Hack, M. Kolb, M. L. Zheludkevich, and O. Nuyken
• 13. Reversibly Porating Coatings - Pinned Spinodal Decompositions
• Feng Yan, Dustin England, Hong Gu, and John Texter
• 14. Washpermanent Nano-Structured Textiles
• Oihana Elizalde and Michael Schmitt
• Indexes
• Author Index
• Subject Index

Smart Coatings have novel functions and sense and interact with their environment in addition to having the traditional functions of protecting and decorating surfaces. This volume focuses on bioactive coatings, nanotechnology based coatings and novel coatings. After an overview of the topic, the section on bioactive coatings deals with antibacterial, antifouling, fouling release coatings, and nanoporous bioactive smart coatings. The section on nanotechnology based coatings involves nanoparticle coatings, organic-inorganic nanocomposite coatings, effects of inorganic nanoparticles on automotive clear- coat properties, and nanostructured electro-optically active smart coatings. The section on novel coatings includes biocatalytic coatings, superhydrophobic coatings, intelligent corrosion protection by conducting polymers, and electrochemical protection of steel and aluminum coatings.

• CONTENTS
• PREFACE
• OVERVIEW
• BIOACTIVE COATINGS
• FUNDAMENTALS AND EMERGING APPLICATIONS. M. C. FLICKINGER, M. FIDALEO, J. GOSSE K. POLZIN, S. CHARANIYA, C. SOLHEID, O. K. LYNGBERG,M. LAUDON, H. GE, J. L. SCHOTTEL, D. R. BOND, A. AKSAN, AND L. E. SCRIVEN
• NANOTECHNOLOGY
• EFFECTS OF ALUMINA AND SILICA NANOPARTICLES ON AUTOMOTIVE CLEAR-COAT PROPERTIES. BRYCE R. FLORYANCIC, LUCAS J. BRICKWEG, AND RAYMOND H. FERNANDO
• NOVEL COATINGS

Over the past 25 years coatings technologies have been influenced by the need to lower volatile organic contents (VOC) in order to comply with stricter environmental regulations as well as to reduce the use of costly petroleum based solvents. During this time the use of waterborne coatings in the architectural, industrial maintenance and original equipment manufacturing (OEM) sectors has continued to grow replacing solvent based coatings while meeting the ever decreasing VOC targets. In addition to waterborne coatings, other alternative technologies in the industrial and OEM sectors include powder coatings, uv-curable coatings and high solids coatings have had significant growth. Traditionally these coatings had the primary functions of protecting and decorating substrates. More recently, there has been growth in Research and Development and commercial product generation of coatings which have novel functions and sense and interact with their environment in addition to having the traditional protection and decoration functions. These coatings are often referred to as Smart Coatings. These types of coatings generally provide significant added value. Smart Coatings can be achieved in many ways such as by addition of additives and strategically designing polymer structures and coatings morphologies.

• PREFACE
• OVERVIEW
• 1. Twenty-First Century Materials: Coatings That Interact with Their Environment
• BIOACTIVE COATINGS
• 2. Smart Coatings. Core-Shell Particles Containing Poly(n-Butyl Acrylate) Cores and Chitosan Shells as a Novel Durable Antibacterial Finish
• 3. Formulation and Evaluation of Organic Antibacterial Coatings
• 4. Silicone Polymers with Biocide Grafting for Antifouling/Fouling Release Coatings: Effect of Modulus on Antifouling Performance
• 5. Thermoset Siloxane-Urethane Fouling Release Coatings
• STIMULI-RESPONSIVE COATINGS
• 6. Smart Responsive Coatings from Mixed Polymer Brushes
• 7. Surface-Catalyzed Growth of Polymer Films That Respond to pH
• 8. Pressure Sensing Paints Based on Fluoroacrylic Polymers Doped with Phosphorescent Divalent Osmium Complexes
• NOVEL COATINGS
• 9. Development of a Removable Conformal Coating through the Synthetic Incorporation of Diels-Alder Thermally Reversible Adducts into an Epoxy Resin
• 10. Electroactive Polymer Coatings as Replacements for Chromate Conversion Coatings
• 11. Oxidation Resistive Coatings at High Temperatures
• FOR IRON CORES
• INDEXES
• AUTHOR INDEX
• SUBJECT INDEX