E.1 Introduction: The "Smarts" in Smart Coatings
E.1.1 Smart Coatings and their Relationship to Other Types of Advanced Materials
E.2 The Business Case for Smart Materials: Two Ways to Make Money with Smart Coatings
E.2.1 Longevity and New Functionality: The Twin Promises of Smart Coatings
E.2.2 The Barriers to Growth in the Smart Coatings Market are Not Technical
E.3 Opportunities in Smart Coatings Considered by Functionality
E.3.1 Anti-Corrosion, Self-Cleaning and Anti-Microbial Smart Coatings
E.3.2 Self-Healing/Self-Repairing Coatings
E.3.3 Self-Stratifying Coatings
E.3.4 Self-Assembling/Self-Organizing Coatings
E.3.5 Smart Optical Coatings for Smart Windows and Other Applications
E.3.6 Drug Delivery and Related Medical Applications for Smart Coatings
E.3.7 Smart Coatings in Smart Textiles
E.4 Summary of NanoMarkets' Eight-Year Forecasts for Smart Coatings
E.5 Key Players to Watch
E.5.1 Self-Repair and Self-Healing materials
E.5.2 Thermochromic and Electrochromic Windows.
E.5.3 Bioactive and Antimicrobial Coatings
E.5.4 Corrosion Control Coatings
Chapter One: Introduction
1.1 Background to the Report
1.1.1 Definitions and Categorizations of Smart Coatings
1.1.2 Military Applications: Early Revenues for Smart Coatings
1.1.3 Medical Markets: Taking Advantage of Aging Populations
1.1.4 Smart Coatings, Smart Windows and the Construction Industry
1.1.5 Smart Coatings and Consumers
1.2 Objectives and Scope of this Report
1.3 Methodology of this Report
1.4 Plan of this Report
Chapter Two: Material and Technical Trends in Smart Coatings
2.1 Introduction
2.1.1 A Note on One- and Two-way Smart Coatings
2.2 Functionality Trends and Roadmap for Smart Coatings: From Protection to Novel Functionality
2.2.1 Early Smart Coatings Products: Sometimes Not a Success
2.2.2 Today's Smart Coatings Products: Improving Total Cost of Ownership
2.2.3 Next-Generation Smart Coatings: New Functionality
2.3 Self-Repair and Self-Healing Coatings
2.3.1 Firms Active in the Self-Healing/Self-Repairing Coating Sector
2.3.2 Notes on Manufacturing of Self-Healing Coatings
2.4 Self-Stratifying Coatings
2.5 Self-Assembling/Self-Organizing Coatings
2.5.1 Self-Cleaning: Glass and Other Surfaces
2.6 Thermochromic, Photoresponsive and Color-Shifting Materials
2.6.1 Thermochromic Coatings
2.6.2 Electrochromic Coatings
2.6.3 Thermochromic and Electrochromic Paint
2.6.4 Suppliers of Thermochromic and Electrochromic Windows
2.6.5 Manufacturing Thermochromic and Electrochromic Windows
2.7 Pressure-Responsive Coatings
2.7.1 Touch Screens
2.7.2 Sensors
2.7.3 Energy Scavenging
2.7.4 Supply Structure for Pressure-Responsive Coatings
2.8 Bioactive and Anti-Microbial Smart Coatings
2.8.1 Active R&D in Smart Bio-Coating Space
2.8.2 Drug Delivery Coatings
2.9 Materials for Autonomous Corrosion Control
2.9.1 Corrosion Sensing
2.9.2 Self-Healing Corrosion Control
2.10 Key Points in this Chapter
Chapter Three: Smart Coatings Applications: Current and Future
3.1 Introduction
3.2 Smart Coatings in the Energy Sector
3.2.1 Photovoltaics: Cleaner Glass and Anti-Reflective Coatings
3.2.2 Fuel Cells, Smart Coatings and Beyond
3.2.3 Other Applications for Smart Coatings in the Energy Sector
3.3 Construction Industry Applications for Smart Coatings
3.3.1 Smart Coatings and Net Zero Homes
3.3.2 Smart Coatings in Thermochromic, Electrochromic and Photochromic Smart Windows
3.3.3 Anti-Microbial Paints and Anti-Corrosion Coatings
3.3.4 Self-Cleaning Surfaces
3.3.5 Self-Healing Paints
3.4 Medical Applications
3.4.1 Anti-Fouling and Anti-Microbial Applications
3.4.2 Drug Delivery and Anti-Inflammatory Applications
3.4.3 Diagnostic Sensing and Smart Coatings
3.5 Automotive and Transportation Applications for Smart Coatings
3.5.1 Fillers, Body Coatings, etc.
3.5.2 Suspensions and Braking Systems
3.5.3 Catalysts and Lubricants
3.5.4 Other Applications for Smart Coatings in the Automotive Segment
3.5.5 Applications for Smart Coatings in Non-Automotive Transportation Applications
3.6 Smart Coatings and Smart Textiles
3.6.1 Environmentally Responsive Textiles
3.6.2 Self-Cleaning Carpets
3.6.3 Fire Retardant Textiles
3.7 Smart Coatings in Electronics
3.8 Military Applications for Smart Coatings
3.8.1 Corrosion-Resistant, Wear-Resistant and Self-Healing Materials
3.8.2 Bio-Agent Detection
3.8.3 Camouflage
3.8 Key Points in this Chapter
Chapter Four: Eight-Year Forecasts of Smart Coatings Markets
4.1 Introduction
4.2 Military Applications
4.2.1 Corrosion-Resistant, Wear-Resistant and Self-Healing Materials
4.2.2 Biosensing Applications
4.2.3 Naval Anti-Fouling
4.2.4 Camouflage
4.2.5 Market Size Forecast by Materials
4.3 Medical Applications
4.3.1 Anti-microbial Paints and Coatings
4.3.2 Medical Drug Delivery Coatings
4.3.3 Medical Smart Coatings Market Size
4.4 Energy Applications
4.4.1 Batteries
4.4.2 Photovoltaic
4.4.3 Wind Turbines
4.4.4 Market Size Forecasts of Smart Coatings in Energy
4.5 Automotive and Transportation Sector
4.5.1 Fillers
4.5.2 Electrochromic Windows
4.5.3 Market Size Forecasts for Smart Coatings in Automotive and Transport Applications
4.6 Construction and Architectural Applications
4.6.1 Windows
4.6.2 Self-Cleaning Surfaces
4.6.3 Anti-Corrosion Coatings
4.6.4 Market Size Forecasts for Building and Construction
4.7 Smart Textiles
4.7.1 E-textiles
4.7.2 Fire Retardant Textiles
4.7.3 Market Size Forecasts by Material
4.7 Summary
Acronyms and Abbreviations Used In this Report
About the Authors
Exhibit E-1: Selected Applications for Smart Coatings by Coating Type and industry Sector.
Exhibit E-2: Total Market Forecast of Smart Materials in Coatings: 2011-2018 ($ Million)
Exhibit 2-1: A crack in a self-healing material.
Exhibit 4-2: Forecast of Corrosion Resistant, Wear Resistant Smart Coatings for Military Applications: 2001-2018
Exhibit 4-3: Market Forecast of Bio-agent Detection Application of Smart Coatings: 2011-2018 ($ Million)
Exhibit 4-4: Market Forecast of Naval Anti-Fouling Smart Coatings: 2011-2018 ($ Million)
Exhibit 4-5: Market Forecast of Military Camouflage Smart Coatings: 2011-2018 ($ Million)
Exhibit 4-6: Market Forecast of Smart Materials in Coatings for Military Applications: 2011-2018 ($ Million)
Exhibit 4-7: Market Forecast of Medical Anti-Microbial Paints and Coatings: 2011-2018 ($ Million)
Exhibit 4-8: Market Forecast of Medical Drug Delivery Coatings: 2011-2018 ($ Million)
Exhibit 4-9: Market Forecast of Smart Materials in Coatings for Medical Applications: 2011-2018 ($ Million)
Exhibit 4-13: Market Forecast of Smart Materials in Coatings for Energy Applications: 2011-2018 ($ Million)
Exhibit 4-14: Market Forecast of Smart Coatings for Automotive Fillers: 2011-2018 ($ Million)
Exhibit 4-15: Market Forecast of Smart Coatings for Electrochromic Windows: 2011-2018 ($ Million)
Exhibit 4-16: Forecast of Smart Materials in Coatings for Automotive and Transport Applications: 2011-2018.
Exhibit 4-17: Market Forecast of Smart Coatings for Windows: 2011-2018 ($ Million)
Exhibit 4-18: Market Forecast of Smart Coatings for Self-Cleaning Surfaces: 2011-2018 ($ Million)
Exhibit 4-19: Market Forecast of Smart Coatings for Anti-Corrosion: 2011-2018 ($ Million)
Exhibit 4-20: Forecast of Smart Materials for Building and Architectural Applications: 2011-2018 ($ Million)
Exhibit 4-21: Market Forecast of Smart Coatings for E-Textiles: 2011-2018 ($ Million)
Exhibit 4-22: Market Forecast of Smart Coatings for Fire- Retardant Textiles: 2011-2018 ($ Million)
Exhibit 4-23: Market Forecast of Smart Materials for Textile Applications: 2011-2018 ($ Million)
Exhibit 4-24: Total Market Forecast of Smart Materials in Coatings: 2011-2018 ($ Million)
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