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The Global Market for Nanocoatings to 2027, 20th Edition - Product Image

The Global Market for Nanocoatings to 2027, 20th Edition

  • ID: 4622211
  • Report
  • Region: Global
  • 640 Pages
  • Future Markets, Inc
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The Global Market for Nanocoatings, now in it's 20th edition covers the latest products, companies and market in nanocoatings. With over 70 additional pages of content from the previous editions the report provides revised market estimates based on recent growth in a range of markets. Sections on electronics, glass and windows and textiles have been greatly expanded and over 25 new company profiles added.

The incorporation of nanomaterials into thin films, coatings and surfaces leads to new functionalities, completely innovative characteristics and the possibility to achieve multi-functional coatings and smart coatings. The use of nanomaterials also results in performance enhancements in wear, corrosion-wear, fatigue and corrosion resistant coatings. Nanocoatings demonstrate significant enhancement in outdoor durability and vastly improved hardness and flexibility compared to traditional coatings.

The Global Market for Nanocoatings examines a market that is already providing significant economic, hygiene and environmental benefit for sectors such as consumer electronics, construction, medicine & healthcare, textiles, oil & gas, infrastructure and aviation.

Nanocoatings covered include:

  • Anti-fingerprint
  • Anti-microbial
  • Anti-corrosion
  • Abrasion & wear-resistant
  • Barrier
  • Smart
  • Anti-fouling and easy-to-clean
  • Self-cleaning
  • Photocatalytic
  • UV-Resistant
  • Thermal barrier
  • Flame retardant
  • Anti-icing & deicing
  • Anti-reflective
  • Self-healing.

Report contents include:

  • Size in value for the nanocoatings market, and growth rate during the forecast period, 2017-2027.
  • Size in value for the End-user industries for nanocoatings and growth during the forecast period.
  • Market drivers, trends and challenges, by end user markets.
  • The regional markets for nanocoatings .
  • Market outlook for 2018.
  • In-depth market assessment of opportunities for nanocoatings, by type and markets.
  • The latest trends in nanostructured surface treatments and coatings.
  • Benefits of nanocoatings, by markets and applications
  • Addressable markets for nanocoatings, by nanocoatings type and industry
  • Estimated market revenues for nanocoatings to 2027, by market and applications
  • Functional and smart nanocoatings applications.
  • 330 company profiles including products and target markets.
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Note: Product cover images may vary from those shown
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1 INTRODUCTION

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

3.1 High performance coatings
3.2 Nanocoatings
3.3 Market drivers and trends
3.4 Market size and opportunity
    3.4.1 Main markets
    3.4.2 Total revenues 2010-2027
    3.4.3 Revenues by market
    3.4.4 Revenues by nanocoatings type
    3.4.5 Regional demand
3.5 Market and technical challenges

4 NANOCOATINGS TECHNICAL ANALYSIS

4.1 Properties
4.2 Benefits of using nanocoatings
4.2.1 Types
4.3 Main production and synthesis methods
4.4 Hydrophobic coatings and surfaces
    4.4.1 Hydrophilic coatings
    4.4.2 Hydrophobic coatings
        4.4.2.1 Properties
4.5 Superhydrophobic coatings and surfaces
    4.5.1 Properties
    4.5.2 Durability issues
    4.5.3 Nanocellulose
4.6 Oleophobic and omniphobic coatings and surfaces

5 NANOMATERIALS USED IN NANOCOATINGS

5.1 GRAPHENE
    5.1.1 Properties and coatings applications
        5.1.1.1 Anti-corrosion coatings
        5.1.1.2 Anti-microbial
        5.1.1.3 Anti-icing
        5.1.1.4 Barrier coatings
        5.1.1.5 Heat protection
        5.1.1.6 Smart windows
5.2 CARBON NANOTUBES
    5.2.1 Properties and applications
        5.2.1.1 Conductive films
        5.2.1.2 EMI shielding
        5.2.1.3 Anti-fouling
        5.2.1.4 Flame retardant
5.3 SILICON DIOXIDE/SILICA NANOPARTICLES
    5.3.1 Properties and applications
        5.3.1.1 Easy-clean and dirt repellent
        5.3.1.2 Anti-fogging
        5.3.1.3 Scratch and wear resistance
        5.3.1.4 Anti-reflection
5.4 NANOSILVER
    5.4.1 Properties and applications
        5.4.1.1 Anti-bacterial
        5.4.1.2 Electrical conductivity
        5.4.1.3 Anti-reflection
5.5 TITANIUM DIOXIDE NANOPARTICLES
    5.5.1 Properties and applications
        5.5.1.1 Exterior and construction glass coatings
        5.5.1.2 Outdoor air pollution
        5.5.1.3 Interior coatings
        5.5.1.4 Improving indoor air quality
        5.5.1.5 Waste Water Treatment
        5.5.1.6 UV protection coatings
5.6 ALUMINIUM OXIDE NANOPARTICLES
    5.6.1 Properties and applications
        5.6.1.1 Scratch and wear resistant
5.7 ZINC OXIDE NANOPARTICLES
    5.7.1 Properties and applications
        5.7.1.1 UV protection
        5.7.1.2 Anti-bacterial
5.8 DENDRIMERS
    5.8.1 Properties and applications
5.9 NANOCELULOSE
    5.9.1 Properties and applications
    5.9.2 Cellulose nanofibers (CNF)
        5.9.2.1 Applications
    5.9.3 NanoCrystalline Cellulose (NCC)
        5.9.3.1 Properties
    5.9.4 Bacterial Cellulose (BCC)
        5.9.4.1 Applications
    5.9.5 Abrasion and scratch resistance
    5.9.6 UV-resistant
    5.9.7 Superhydrophobic coatings
    5.9.8 Gas barriers
    5.9.9 Anti-bacterial
5.10  NANOCLAYS
    5.10.1 Properties and applications
        5.10.1.1 Barrier films

6 NANOCOATINGS MARKET STRUCTURE

7 MARKET SEGMENT ANALYSIS, BY NANOCOATINGS TYPE

7.1 ANTI-FINGERPRINT NANOCOATINGS
    7.1.1 Market drivers and trends
    7.1.2 Benefits of nanocoatings
    7.1.3 Applications
    7.1.4 Global market size
        7.1.4.1 Nanocoatings opportunity
        7.1.4.2 Global revenues 2010-2027
    7.1.5 Companies
7.2 ANTI-BACTERIAL NANOCOATINGS
    7.2.1 Market drivers and trends
    7.2.2 Benefits of nanocoatings
    7.2.3 Applications
    7.2.4 Global market size
        7.2.4.1 Nanocoatings opportunity
        7.2.4.2 Global revenues 2010-2027
    7.2.5 Companies
7.3 ANTI-CORROSION NANOCOATINGS
    7.3.1 Market drivers and trends
    7.3.2 Benefits of nanocoatings
    7.3.3 Applications
    7.3.4 Global market size
        7.3.4.1 Nanocoatings opportunity
        7.3.4.2 Global revenues 2010-2027
    7.3.5 Companies
7.4 ABRASION & WEAR-RESISTANT NANOCOATINGS
    7.4.1 Market drivers and trends
    7.4.2 Benefits of nanocoatings
    7.4.3 Markets
    7.4.4 Global market size
        7.4.4.1 Nanocoatings opportunity
        7.4.4.2 Global revenues 2010-2027
    7.4.5 Companies
7.5 BARRIER NANOCOATINGS
    7.5.1 Market drivers and trends
    7.5.2 Benefits of nanocoatings
    7.5.3 Global market size
        7.5.3.1 Nanocoatings opportunity
        7.5.3.2 Global revenues 2010-2027
    7.5.4 Companies
7.6 ANTI-FOULING AND EASY-TO-CLEAN NANOCOATINGS
    7.6.1 Market drivers and trends
    7.6.2 Benefits of nanocoatings
    7.6.3 Applications
    7.6.4 Global market size
        7.6.4.1 Nanocoatings opportunity
        7.6.4.2 Global revenues 2010-2027
    7.6.5 Companies
7.7 SELF-CLEANING (BIONIC) NANOCOATINGS
    7.7.1 Market drivers and trends
    7.7.2 Benefits of nanocoatings
    7.7.3 Global market size
        7.7.3.1 Nanocoatings opportunity
        7.7.3.2 Global revenues 2010-2027
    7.7.4 Companies
7.8 SELF-CLEANING (PHOTOCATALYTIC) NANOCOATINGS
    7.8.1 Market drivers and trends
    7.8.2 Benefits of nanocoatings
    7.8.3 Applications
        7.8.3.1 Self-Cleaning Coatings
        7.8.3.2 Indoor Air Pollution and Sick Building Syndrome
        7.8.3.3 Outdoor Air Pollution
        7.8.3.4 Water Treatment
    7.8.4 Global market size
        7.8.4.1 Nanocoatings opportunity
        7.8.4.2 Global revenues 2010-2027
    7.8.5 Companies
7.9 UV-RESISTANT NANOCOATINGS
    7.9.1 Market drivers and trends
    7.9.2 Benefits of nanocoatings
        7.9.2.1 Textiles
        7.9.2.2 Wood coatings
    7.9.3 Global market size
        7.9.3.1 Nanocoatings opportunity
        7.9.3.2 Global revenues 2010-2027
    7.9.4 Companies
7.10  THERMAL BARRIER AND FLAME RETARDANT NANOCOATINGS
    7.10.1 Market Drivers and trends
    7.10.3 Applications
    7.10.4 Global market size
        7.10.4.1 Nanocoatings opportunity
        7.10.4.2 Global revenues 2010-2027
    7.10.5 Companies
7.11  ANTI-ICING AND DE-ICING
    7.11.1 Market drivers and trends
    7.11.2 Benefits of nanocoatings
        7.11.2.1 Hydrophobic and superhydrophobic coatings (HSH)
        7.11.2.2 SLIPS
        7.11.2.3 Heatable coatings
        7.11.2.4 Anti-freeze protein coatings
    7.11.3 Global market size
        7.11.3.1 Nanocoatings opportunity
        7.11.3.2 Global revenues 2010-2027
    7.11.4 Companies
7.12  ANTI-REFLECTIVE NANOCOATINGS
    7.12.1 Market drivers and trends
    7.12.2 Benefits of nanocoatings
    7.12.3 Global market size
        7.12.3.1 Nanocoatings opportunity
        7.12.3.2 Global revenues 2010-2027
    7.12.4 Companies
7.13  SELF-HEALING NANOCOATINGS
    7.13.1 Extrinsic self-healing
        7.13.1.1 Capsule-based
        7.13.1.2 Vascular self-healing
    7.13.2 Intrinsic self-healing
    7.13.3 Healing volume
    7.13.4 Self-healing coatings
        7.13.4.1 Anti-corrosion
        7.13.4.2 Scratch repair        
       
8 MARKET SEGMENT ANALYSIS, BY END USER MARKET

8.1 AVIATION AND AEROSPACE
    8.1.1 Market drivers and trends
    8.1.2 Applications
        8.1.2.1 Thermal protection
        8.1.2.2 Icing prevention
        8.1.2.3 Conductive and anti-static
        8.1.2.4 Corrosion resistant
        8.1.2.5 Insect contamination
    8.1.3 Global market size
        8.1.3.1 Nanocoatings opportunity
        8.1.3.2 Global revenues 2010-2027
    8.1.4 Companies
8.2 AUTOMOTIVE
    8.2.1 Market drivers
    8.2.2 Applications
        8.2.2.1 Anti-scratch nanocoatings
        8.2.2.2 Conductive coatings
        8.2.2.3 Hydrophobic and oleophobic
        8.2.2.4 Anti-corrosion
        8.2.2.5 UV-resistance
        8.2.2.6 Thermal barrier
        8.2.2.7 Flame retardant
        8.2.2.8 Anti-fingerprint
        8.2.2.9 Anti-bacterial
        8.2.2.10 Self-healing
    8.2.3 Global market size
        8.2.3.1 Nanocoatings opportunity
        8.2.3.2 Global revenues 2010-2027
    8.2.4 Companies
8.3 CONSTRUCTION, ARCHITECTURE AND EXTERIOR PROTECTION
    8.3.1 Market drivers and trends
    8.3.2 Applications
        8.3.2.1 Protective coatings for glass, concrete and other construction materials
        8.3.2.2 Photocatalytic nano-TiO2 coatings
        8.3.2.3 Anti-graffiti
        8.3.2.4 UV-protection
        8.3.2.5 Titanium dioxide nanoparticles
        8.3.2.6 Zinc oxide nanoparticles
    8.3.3 Global market size
        8.3.3.1 Nanocoatings opportunity
        8.3.3.2 Global revenues 2010-2027
    8.3.4 Companies
8.4 ELECTRONICS
    8.4.1 Market drivers
    8.4.2 Applications
        8.4.2.1 Waterproof coatings
        8.4.2.2 Conductive nanocoatings and films
        8.4.2.3 Anti-fingerprint
        8.4.2.4 Anti-abrasion
        8.4.2.5 Self-healing consumer electronic device coatings
        8.4.2.6 Flexible and stretchable electronics
    8.4.3 Global market size
        8.4.3.1 Nanocoatings opportunity
        8.4.3.2 Global revenues 2010-2027
    8.4.4 Companies
8.5 HOUSEHOLD CARE, SANITARY AND INDOOR AIR QUALITY
    8.5.1 Market drivers and trends
    8.5.2 Applications
        8.5.2.1 Self-cleaning and easy-to-clean
        8.5.2.2 Food preparation and processing
        8.5.2.3 Indoor pollutants and air quality
    8.5.3 Global market size
        8.5.3.1 Nanocoatings opportunity
        8.5.3.2 Global revenues 2010-2027
    8.5.4 Companies
8.6 MARINE
    8.6.1 Market drivers and trends
    8.6.2 Applications
    8.6.3 Global market size
        8.6.3.1 Nanocoatings opportunity
        8.6.3.2 Global revenues 2010-2027
    8.6.4 Companies
8.7 MEDICAL & HEALTHCARE
    8.7.1 Market drivers and trends
    8.7.2 Applications
        8.7.2.1 Anti-fouling
        8.7.2.2 Anti-microbial and infection control
        8.7.2.3 Nanosilver
        8.7.2.4 Medical device coatings
    8.7.3 Global market size
        8.7.3.1 Nanocoatings opportunity
        8.7.3.2 Global revenues 2010-2027
    8.7.4 Companies
8.8 MILITARY AND DEFENCE
    8.8.1 Market drivers and trends
    8.8.2 Applications
        8.8.2.1 Textiles
        8.8.2.2 Military equipment
        8.8.2.3 Chemical and biological protection
        8.8.2.4 Decontamination
        8.8.2.5 Thermal barrier
        8.8.2.6 EMI/ESD Shielding
        8.8.2.7 Anti-reflection
    8.8.3 Global market size
        8.8.3.1 Nanocoatings opportunity
        8.8.3.2 Global market revenues 2010-2027
    8.8.4 Companies
8.9 PACKAGING
    8.9.1 Market drivers and trends
    8.9.2 Applications
        8.9.2.1 Nanoclays
        8.9.2.2 Nanosilver
        8.9.2.3 Nanocellulose
    8.9.3 Global market size
        8.9.3.1 Nanocoatings opportunity
        8.9.3.2 Global market revenues 2010-202
    8.9.4 Companies
8.10  TEXTILES AND APPAREL
    8.10.1 Market drivers and trends
    8.10.2 Applications
        8.10.2.1 Protective textiles
        8.10.2.2 Conductive coatings
    8.10.3 Global market size
        8.10.3.1 Nanocoatings opportunit
        8.10.3.2 Global market revenues 2010-2027
    8.10.4 Companies
8.11  ENERGY
    8.11.1 Market drivers and trends
    8.11.2 Applications
        8.11.2.1 Wind energy
        8.11.2.2 Solar
        8.11.2.3 Anti-reflection
        8.11.2.4 Gas turbine coatings
    8.11.3 Global market size
        8.11.3.1 Nanocoatings opportunity
        8.11.3.2 Global market revenues 2010-2027
    8.11.4 Companies
8.12  OIL AND GAS
    8.12.1 Market drivers and trends
    8.12.2 Applications
    8.12.3 Global market size
        8.12.3.1 Nanocoatings opportunity
        8.12.3.2 Global market revenues 2010-2027
    8.12.4 Companies
8.13  TOOLS AND MANUFACTURING
    8.13.1 Market drivers and trends
    8.13.2 Applications
    8.13.3 Global market size
        8.13.3.1 Global market revenues 2010-2027
    8.13.4 Companies
8.14  ANTI-COUNTERFEITING
    8.14.1 Market drivers and trends
    8.14.2 Applications
    8.14.3 Global market size
        8.14.3.1 Global market revenues 2010-2027
    8.14.4 Companies

9 NANOCOATINGS COMPANIES

10 REFERENCES
 
TABLES

Table 1: Categorization of nanomaterials
Table 2: Properties of nanocoatings
Table 3: Markets for nanocoatings
Table 4: Estimated revenues for nanocoatings, 2010-2027, millions USD
Table 5: Estimated revenues for nanocoatings, 2017, millions USD, by market
Table 6: Estimated revenues for nanocoatings, 2027, millions USD, by market
Table 7: Estimated revenues for nanocoatings, 2017, millions USD, by type
Table 8: Estimated revenues for nanocoatings, 2027, millions USD, by type
Table 9: Disadvantages of commonly utilized superhydrophobic coating methods
Table 10: Technology for synthesizing nanocoatings agents
Table 11: Film coatings techniques
Table 12: Contact angles of hydrophilic, super hydrophilic, hydrophobic and superhydrophobic surfaces
Table 13: Applications of oleophobic & omniphobic coatings
Table 14: Nanomaterials used in nanocoatings and applications
Table 15: Graphene properties relevant to application in coatings
Table 16: Nanocellulose applications timeline in the coatings and paints markets
Table 17: Applications of cellulose nanofibers(CNF)
Table 18: Applications of bacterial cellulose (BC)
Table 19: Companies developing cellulose nanofibers products in paper coatings and non-packaging coating products, applications targeted and stage of commercialization
Table 20: Nanocoatings market structure
Table 21: Anti-fingerprint nanocoatings-Nanomaterials used, principles, properties and applications
Table 22: Market assessment for anti-fingerprint nanocoatings
Table 23: Potential addressable market for anti-fingerprint nanocoatings
Table 24: Revenues for anti-fingerprint nanocoatings, 2010-2027, millions USD
Table 25: Anti-fingerprint coatings product and application developers
Table 26: Anti-bacterial nanocoatings-Nanomaterials used, principles, properties and applications
Table 27: (A) illustrates biocidal nanocoating resistance to bacteria. (B) illustrates biocidal nanocoating resistance to fungus
Table 28: Nanomaterials utilized in Anti-bacterial coatings-benefits and applications
Table 29: Anti-bacterial nanocoatings markets and applications
Table 30: Nanomaterials utilized in Anti-bacterial coatings-benefits and applications
Table 31: Market assessmentof  Anti-bacterial nanocoatings
Table 32: Opportunity for Anti-bacterial nanocoatings
Table 33: Revenues for Anti-bacterial nanocoatings, 2010-2027, US$
Table 34: Anti-bacterial nanocoatings product and application developers
Table 35: Anti-corrosion nanocoatings-Nanomaterials used, principles, properties and applications
Table 36: Anti-corrosion nanocoatings markets and applications
Table 37: Market assessment for anti-corrosion nanocoatings
Table 38: Opportunity for anti-corrosion nanocoatings
Table 39: Revenues for anti-corrosion nanocoatings, 2010-2027
Table 40: Anti-corrosion nanocoatings product and application developers
Table 41: Abrasion & wear resistant nanocoatings-Nanomaterials used, principles, properties and applications
Table 42: Abrasion & wear resistant nanocoatings markets and applications
Table 43: Abrasion and wear resistant nanocoatings markets, applications and potential revenues
Table 44: Market assessment for abrasion and wear resistant nanocoatings
Table 45: Revenues for abrasion and wear resistant nanocoatings, 2010-2027, US$
Table 46: Abrasion and wear resistant nanocoatings product and application developers
Table 47: Barrier nanocoatings markets, applications and potential addressable market
Table 48: Market assessment for barrier nanocoatings and films
Table 49: Revenues for barrier nanocoatings, 2010-2027, US$
Table 50: Barrier nanocoatings product and application developers
Table 51: Anti-fouling and easy-to-clean nanocoatings-Nanomaterials used, principles, properties and applications
Table 52: Anti-fouling and easy-to-clean nanocoatings markets, applications and potential addressable market
Table 53: Market assessment for anti-fouling and easy-to-clean nanocoatings
Table 54: Revenues for anti-fouling and easy-to-clean nanocoatings, 2010-2027, US$
Table 55: Anti-fouling and easy-to-clean nanocoatings product and application developers
Table 56: Self-cleaning (bionic) nanocoatings-Nanomaterials used, principles, properties and applications
Table 57: Self-cleaning (bionic) nanocoatings-Markets and applications
Table 58: Market assessment for self-cleaning (bionic) nanocoatings
Table 59: Revenues for self-cleaning nanocoatings, 2010-2027, US$
Table 60: Self-cleaning (bionic) nanocoatings product and application developers
Table 61: Self-cleaning (photocatalytic) nanocoatings-Nanomaterials used, principles, properties and applications
Table 62: Photocatalytic nanocoatings-Markets, applications and potential addressable market size by 2027
Table 63: Market assessment for self-cleaning (photocatalytic) nanocoatings
Table 64: Revenues for self-cleaning (photocatalytic) nanocoatings, 2010-2027, US$
Table 65: Self-cleaning (photocatalytic) nanocoatings product and application developers
Table 66: UV-resistant nanocoatings-Nanomaterials used, principles, properties and applications
Table 67: UV-resistant nanocoatings-Markets, applications and potential addressable market
Table 68: Market assessment for UV-resistant nanocoatings
Table 69: Revenues for UV-resistant nanocoatings, 2010-2027, US$
Table 70: UV-resistant nanocoatings product and application developers
Table 71: Thermal barrier and flame retardant nanocoatings-Nanomaterials used, principles, properties and applications
Table 72: Nanomaterials utilized in thermal barrier and flame retardant coatings and benefits thereof
Table 73: Thermal barrier and flame retardant nanocoatings-Markets, applications and potential addressable markets
Table 74: Market assessment for thermal barrier and flame retardant nanocoatings
Table 75: Revenues for thermal barrier and flame retardant nanocoatings, 2010-2027, US$
Table 76: Thermal barrier and flame retardant nanocoatings product and application developers
Table 77: Anti-icing nanocoatings-Nanomaterials used, principles, properties, applications
Table 78: Nanomaterials utilized in anti-icing coatings and benefits thereof
Table 79: Anti-icing and de-icing nanocoatings-Markets, applications and potential addressable markets
Table 80: Market assessment for anti-icing and de-icing nanocoatings
Table 81: Revenues for anti-icing and de-icing nanocoatings, 2010-2027, US$, conservative and optimistic estimates
Table 82: Anti-icing and de-icing nanocoatings product and application developers
Table 83: Anti-reflective nanocoatings-Nanomaterials used, principles, properties and applications
Table 84: Market opportunity for anti-reflection nanocoatings
Table 85: Revenues for anti-reflective nanocoatings, 2010-2027, US$
Table 86: Anti-reflective nanocoatings product and application developers
Table 87: Types of self-healing coatings and materials
Table 88: Comparative properties of self-healing materials
Table 89: Types of self-healing nanomaterials
Table 90: Types of nanocoatings utilized in aerospace and application...
Table 91: Revenues for nanocoatings in the aerospace industry, 2010-2027
Table 92: Aerospace nanocoatings product developers
Table 93: Market drivers for nanocoatings in the automotive market
Table 94: Anti-scratch automotive nanocoatings
Table 95: Conductive automotive nanocoatings
Table 96: Hydro- and oleophobic automotive nanocoatings
Table 97: Anti-corrosion automotive nanocoatings
Table 98: UV-resistance automotive nanocoatings
Table 99: Thermal barrier automotive nanocoatings
Table 100: Flame retardant automotive nanocoatings
Table 101: Anti-fingerprint automotive nanocoatings
Table 102: Anti-bacterial automotive nanocoatings
Table 103: Self-healing automotive nanocoatings
Table 104: Revenues for nanocoatings in the automotive industry, 2010-2027, US$, conservative and optimistic estimate
Table 105: Automotive nanocoatings product developers
Table 106: Nanocoatings applied in the construction industry-type of coating, nanomaterials utilized and benefits
Table 107: Photocatalytic nanocoatings-Markets and applications
Table 108: Revenues for nanocoatings in construction, architecture and exterior protection, 2010-2027, US$
Table 109: Construction, architecture and exterior protection nanocoatings product developers
Table 110: Market drivers for nanocoatings in electronics
Table 111: Main companies in waterproof nanocoatings for elctronics, products and synthesis methods
Table 112: Conductive electronics nanocoatings
Table 113: Anti-fingerprint electronics nanocoatings
Table 114: Anti-abrasion electronics nanocoatings
Table 115: Nanocoatings applied in the consumer electronics industry
Table 116: Revenues for nanocoatings in electronics, 2010-2027, US$
Table 117: Nanocoatings applications developers in electronics
Table 118: Revenues for nanocoatings in household care, sanitary and indoor air quality, 2010-2027, US$
Table 119: Household care, sanitary and indoor air quality nanocoatings product developers.... 356
Table 120: Nanocoatings applied in the marine industry-type of coating, nanomaterials utilized and benefits
Table 121: Revenues for nanocoatings in the marine sector, 2010-2027, US$
Table 122: Marine nanocoatings product developers
Table 123: Nanocoatings applied in the medical industry-type of coating, nanomaterials utilized, benefits and applications
Table 124: Types of advanced coatings applied in medical devices and implants
Table 125: Nanomaterials utilized in medical implants
Table 126: Revenues for nanocoatings in medical and healthcare, 2010-2027, US$
Table 127: Medical and healthcare nanocoatings product developers
Table 128: Revenues for nanocoatings in military and defence, 2010-2027, US$
Table 129: Military and defence nanocoatings product and application developers
Table 130: Revenues for nanocoatings in packaging, 2010-2027, US$
Table 131: Packaging nanocoatings companies
Table 132: Applications in textiles, by advanced materials type and benefits thereof
Table 133: Nanocoatings applied in the textiles industry-type of coating, nanomaterials utilized, benefits anapplications
Table 134: Applications and benefits of graphene in textiles and apparel
Table 135: Revenues for nanocoatings in textiles and apparel, 2010-2027, US$
Table 136: Textiles nanocoatings product developers
Table 137: Revenues for nanocoatings in energy, 2010-2027, US$
Table 138: Renewable energy nanocoatings product developers
Table 139: Desirable functional properties for the oil and gas industry afforded by nanomaterials in coatings
Table 140: Revenues for nanocoatings in oil and gas exploration, 2010-2027, US$
Table 141: Oil and gas nanocoatings product developers
Table 142: Revenues for nanocoatings in Tools and manufacturing, 2010-2027, US$
Table 143: Tools and manufacturing nanocoatings product and application developers
Table 144: Revenues for nanocoatings in anti-counterfeiting, 2010-2027, US$
Table 145: Anti-counterfeiting nanocoatings product and application developers
 
FIGURES

Figure 1: Estimated revenues for nanocoatings, 2010-2027, millions USD
Figure 2: Market revenues for nanocoatings 2017, millions USD, by market
Figure 3: Market revenues for nanocoatings 2027, millions USD, by market
Figure 4: Markets for nanocoatings 2017, %
Figure 5: Markets for nanocoatings 2027, %
Figure 6: Market for nanocoatings 2017, by nanocoatings type, US$
Figure 7: Markets for nanocoatings 2017, by nanocoatings type, %
Figure 8: Market for nanocoatings 2027, by nanocoatings type, US$
Figure 9: Market for nanocoatings 2027, by nanocoatings type, %
Figure 10: Regional demand for nanocoatings, 2017
Figure 11: Hydrophobic fluoropolymer nanocoatings on electronic circuit boards
Figure 12: Nanocoatings synthesis techniques
Figure 13: Techniques for constructing superhydrophobic coatings on substrates
Figure 14: Electrospray deposition
Figure 15: CVD technique
Figure 16: SEM images of different layers of TiO2 nanoparticles in steel surface
Figure 17: The coating system is applied to the surface.The solvent evaporates
Figure 18: A first organization takes place where the silicon-containing bonding component (blue dots in figure 2) bonds covalently with the surface and cross-links with neighbouring molecules to form a strong three dimensional
Figure 19: During the curing, the compounds or- ganise themselves in a nanoscale monolayer. The fluorine-containing repellent component (red dots in figure 3) on top makes the glass hydro- phobic and oleophobic
Figure 20: (a) Water drops on a lotus leaf
Figure 21: A schematic of (a) water droplet on normal hydrophobic surface with contact angle greater than 90° and (b) water
droplet on a superhydrophobic surface with a contact angle > 150°
Figure 22: Contact angle on superhydrophobic coated surface
Figure 23: Self-cleaning nanocellulose dishware
Figure 24: SLIPS repellent coatings
Figure 25: Omniphobic coatings
Figure 26: Antimicrobial activity of Graphene oxide (GO)
Figure 27: Water permeation through a brick without (left) and with (right) “graphene paint” coating
Figure 28: Graphene heat transfer coating
Figure 29 Carbon nanotube cable coatings
Figure 30 Formation of a protective CNT-based char layer during combustion of a CNT-modified coating
Figure 31: Silica nanoparticle anti-reflection coating on glass
Figure 32 Anti-bacterials mechanism of silver nanoparticle coating
Figure 33: Mechanism of photocatalysis on a surface treated with TiO2 nanoparticles
Figure 34:  Schematic showing the self-cleaning phenomena on superhydrophilic surface
Figure 35: Titanium dioxide-coated glass (left) and ordinary glass (right)
Figure 36:  Self-Cleaning mechanism utilizing photooxidation
Figure 37: Schematic of photocatalytic air purifying pavement
Figure 38: Schematic of photocatalytic indoor air purification filter
Figure 39: Schematic of photocatalytic water purification
Figure 40: Types of nanocellulose
Figure 41: CNF gel
Figure 42: TEM image of cellulose nanocrystals
Figure 43: Extracting CNC from trees
Figure 44: An iridescent biomimetic cellulose multilayer film remains after water that contains cellulose nanocrystals evaporates
Figure 45: CNC slurry
Figure 46: Nanoclays structure. The dimensions of a clay platelet are typically 200-1000 nm in lateral dimension and 1 nm thick
Figure 47: Schematic of typical commercialization route for nanocoatings producer
Figure 48 Nanocoatings market by nanocoatings type, 2010-2027, USD
Figure 49: Types of anti-fingerprint coatings applied to touchscreens
Figure 50: The Tesla S's touchscreen interface
Figure 51: Amtel touch screen interior concept
Figure 52: Schematic of anti-fingerprint nanocoatings
Figure 53: Toray anti-fingerprint film (left) and an existing lipophilic film (right)
Figure 54: Anti-fingerprint nanocoatings markets and applications
Figure 55: Revenues for anti-fingerprint coatings, 2010-2027, US$
Figure 56: Current end user markets for anti-fingerprint nanocoatings, %, based on nanocoatings company sales
Figure 57: Mechanism of microbial inactivation and degradation with anti-microbial PhotoProtect nanocoatings
Figure 58: Schematic of silver nanoparticles penetrating bacterial cell membrane
Figure 59: : Antibacterial mechanism of nanosilver particles
Figure 60: Current end user markets for Anti-bacterial nanocoatings, %, based on nanocoatings company sales
Figure 61: Potential addressable market for Anti-bacterial nanocoatings
Figure 62: Revenues for Anti-bacterial nanocoatings, 2010-2027, US$
Figure 63: Nanovate CoP coating
Figure 64:  2000 hour salt fog results for Teslan nanocoatings
Figure 65: AnCatt proprietary polyaniline nanodispersion and coating structure
Figure 66: Schematic of anti-corrosion via superhydrophobic surface
Figure 67: Current end user markets for anti-corrosion nanocoatings, % based on nanocoatings company sales
Figure 68: Potential addressable market for anti-corrosion nanocoatings
Figure 69: Revenues for anti-corrosion nanocoatings, 2010-2027, US$
Figure 70: Potential addressable market for abrasion and wear resistant nanocoatings
Figure 71: Revenues for abrasion and wear-resistant nanocoatings, 2010-2027, millions US$
Figure 72: Nanocomposite oxygen barrier schematic
Figure 73:  Schematic of barrier nanoparticles deposited on flexible substrates
Figure 74: End user markets for barrier nanocoatings, %
Figure 75: Potential addressable market for barrier nanocoatings and films
Figure 76: Revenues for barrier nanocoatings, 2010-2027, US$
Figure 77: Anti-fouling treatment for heat-exchangers
Figure 78: Markets for anti-fouling and easy clean nanocoatings, by %
Figure 79: Potential addressable market for anti-fouling and easy-to-clean nanocoatings
Figure 80: Revenues for anti-fouling and easy-to-clean nanocoatings 2010-2027, millions USD
Figure 81: Self-cleaning superhydrophobic coating schematic
Figure 82: Markets for self-cleaning nanocoatings, %
Figure 83: Potential addressable market for self-cleaning (bionic) nanocoatings
Figure 84: Revenues for self-cleaning nanocoatings, 2010-2027, US$
Figure 85: Principle of superhydrophilicity
Figure 86: Schematic of photocatalytic air purifying pavement
Figure 87: Tokyo Station GranRoof. The titanium dioxide coating ensures long-lasting whiteness
Figure 88: Markets for self-cleaning (photocatalytic) nanocoatings 2017, %
Figure 89: Potential addressable market for self-cleaning (photocatalytic) nanocoatings
Figure 90: Revenues for self-cleaning (photocatalytic) nanocoatings, 2010-2027, US$
Figure 91: Markets for UV-resistant nanocoatings, %
Figure 92: Potential addressable market for UV-resistant nanocoatings
Figure 93: Revenues for UV-resistant nanocoatings, 2010-2027, US$
Figure 94: Flame retardant nanocoating
Figure 95: Markets for thermal barrier and flame retardant nanocoatings, %
Figure 96: Potential addressable market for thermal barrier and flame retardant nanocoatings
Figure 97: Revenues for thermal barrier and flame retardant nanocoatings, 2010-2027, US$
Figure 98: Nanocoated surface in comparison to existing surfaces
Figure 99: NANOMYTE® SuperAi, a Durable Anti-ice Coating
Figure 100: SLIPS coating schematic
Figure 101: Carbon nanotube based anti-icing/de-icing device
Figure 102: CNT anti-icing nanocoating
Figure 103: Markets for anti-icing and de-icing nanocoatings, %
Figure 104: Potential addressable market for anti-icing and de-icing nanocoatings
Figure 105: Revenues for anti-icing and de-icing nanocoatings, 2010-2027, US$, conservative and optimistic estimates. Conservative estimates in blue, optimistic in red
Figure 106: Demo solar panels coated with nanocoatings
Figure 107: Schematic of AR coating utilizing nanoporous coating
Figure 108: Revenues for anti-reflective nanocoatings, 2010-2027, US$
Figure 109: Schematic of self-healing polymers. Capsule based (a), vascular (b), and intrinsic (c) schemes for self-healing
materials.  Red and blue colours indicate chemical species which react (purple) to heal damage
Figure 110: Stages of self-healing mechanism
Figure 111: Self-healing mechanism in vascular self-healing systems
Figure 112: Comparison of self-healing systems
Figure 23: Self-healing coating on glass
Figure 113 Nanocoatings market by end user sector, 2010-2027, USD
Figure 114: Nanocoatings in the aerospace industry, by nanocoatings type %
Figure 115: Potential addressable market for nanocoatings in aerospace
Figure 116: Revenues for nanocoatings in the aerospace industry, 2010-2027, US$
Figure 117: Nanocoatings in the automotive industry, by coatings type % 2017
Figure 118: Potential addressable market for nanocoatings in the automotive sector
Figure 119: Revenues for nanocoatings in the automotive industry, 2010-2027, US$
Figure 120: Mechanism of photocatalytic NOx oxidation on active concrete road
Figure 121: Jubilee Church in Rome, the outside coated with nano photocatalytic TiO2 coatings
Figure 122: FN® photocatalytic coating, applied in the Project of Ecological Sound Barrier, in Prague
Figure 123 Smart window film coatings based on indium tin oxide nanocrystals
Figure 124: Nanocoatings in construction, architecture and exterior protection, by coatings type %
Figure 125: Potential addressable market for nanocoatings in the construction, architecture and exterior coatings sector
Figure 126: Revenues for nanocoatings in construction, architecture and exterior protection, 2010-2027, US$
Figure 127: Nanocoating submerged in water
Figure 128: Phone coated in WaterBlock submerged in water tank
Figure 129: Self-healing patent schematic
Figure 131: Self-healing glass developed at the University of Tokyo
Figure 132: Royole flexible display
Figure 133: Potential addressable market for nanocoatings in electronics
Figure 134: Revenues for nanocoatings in electronics, 2010-2027, US$, conservative and optimisticestimates
Figure 135: Nanocoatings in household care, sanitary and indoor air quality, by coatings type %
Figure 136: Potential addressable market for nanocoatings in household care, sanitary and indoor airfiltration
Figure 137: Revenues for nanocoatings in household care, sanitary and indoor air quality, 2010-2027, US$
Figure 138: Potential addressable market for nanocoatings in the marine sector
Figure 139: Revenues for nanocoatings in the marine sector, 2010-2027, US$
Figure 140: Nanocoatings in medical and healthcare, by coatings type %
Figure 141: Potential addressable market for nanocoatings in medical & healthcare
Figure 142: Revenues for nanocoatings in medical and healthcare, 2010-2027, US$
Figure 143: Nanocoatings in military and defence, by nanocoatings type %
Figure 144: Potential addressable market nanocoatings in military and defence
Figure 145: Revenues for nanocoatings in military and defence, 2010-2027, US$
Figure 146: O2 Block from Nanobiomatters
Figure 147: Nanocomposite oxygen barrier schematic
Figure 148: Oso fresh food packaging incorporating antimicrobial silver
Figure 149: Potential addressable market for nanocoatings in packaging
Figure 150: Revenues for nanocoatings in packaging, 2010-2027, US$
Figure 151: Omniphobic-coated fabric
Figure 152: Work out shirt incorporating ECG sensors, flexible lights and heating elements
Figure 153: Nanocoatings in textiles and apparel, by coatings type %
Figure 154: Potential addressable market for nanocoatings in textiles and apparel
Figure 155: Revenues for nanocoatings in textiles and apparel, 2010-2027, US$
Figure 156: Self-Cleaning Hydrophobic Coatings on solar panels
Figure 157: Nanocoatings in renewable energy, by coatings type %
Figure 158: Potential addressable market for nanocoatings in renewable energy
Figure 159: Revenues for nanocoatings in energy, 2010-2027, US$
Figure 160: Oil-Repellent self-healing nanocoatings
Figure 161: Nanocoatings in oil and gas exploration, by coatings type %
Figure 162: Potential addressable market for nanocoatings oil and gas exploratio
Figure 163: Revenues for nanocoatings in oil and gas exploration, 2010-2027, US$
Figure 164: Revenues for nanocoatings in Tools and manufacturing, 2010-2027, US$
Figure 165: Security tag developed by Nanotech Security
Figure 166: Revenues for nanocoatings in anti-counterfeiting, 2010-2027, US$

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