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The Global Market for Nanocoatings 2021-2031- Product Image
The Global Market for Nanocoatings 2021-2031- Product Image

The Global Market for Nanocoatings 2021-2031

  • ID: 5359632
  • Report
  • November 2021
  • Region: Global
  • 750 Pages
  • Future Markets, Inc
Market Size, Applications, Growth Prospects, Impact of COVID-19, Challenges, Drivers, Opportunities, and 382 Company Profiles

FEATURED COMPANIES

  • 3M
  • Cleancorp Nanocoatings
  • FutureCarbon GmbH
  • Lipocoat BV
  • Nanoveu Pte. Ltd.
  • Schott AG

The use of advanced, protective nanocoatings to mitigate bacteria, viruses and environmental damage is growing. Conductive coatings are also finding wide application in energy (mainly batteries) and electronics markets and making significant inroads in healthcare, filtration membrane and hygiene markets. The Global Market for Nanocoatings 2021-2031 provides an analysis of market size and forecasts to 2031, all nanocoatings applications, growth prospects, impact of COVID-19 crisis, market challenges, market trends and drivers, opportunities and profiles of 445 companies developing nanocoatings from start-ups to multinationals (mainly in Asia). 


Types of Nanocoatings Covered Include:

  • Anti-fingerprint nanocoatings
  • Anti-fog nanocoatings
  • Anti-microbial and anti-viral nanocoatings
  • Anti-corrosion nanocoatings
  • Abrasion & wear-resistant nanocoatings
  • Barrier nanocoatings
  • Anti-fouling and easy-clean nanocoatings
  • Self-cleaning nanocoatings
  • Photocatalytic nanocoatings
  • UV-resistant nanocoatings
  • Thermal barrier nanocoatings
  • Flame retardant nanocoatings
  • Anti-icing and de-icing nanocoatings
  • Anti-reflective nanocoatings
  • Self-healing nanocoatings
  • Shape memory nanocoatings

Market For Nanocoatings Covered Include:

  • Aviation and aerospace (Thermal protection, Icing prevention, Conductive and anti-static, Corrosion resistant, Insect contamination).
  • Automotive (Anti-scratch nanocoatings, Conductive coatings, Hydrophobic and oleophobic, Anti-fof, Anti-corrosion, UV-resistance, Thermal barrier, Flame retardant, Anti-fingerprint , Anti-bacterial and Self-healing). 
  • Buildings and construction (Antimicrobial and antiviral coatings in building interiors, Antimicrobial paint, Protective coatings for glass, concrete and other construction materials, Photocatalytic nano-TiO2 coatings, Anti-graffiti, UV-protection).
  • Consumer electronics (Transparent functional coatings, Anti-reflective coatings for displays, Waterproof coatings, Conductive nanocoatings and films, Anti-fingerprint, Anti-abrasion, Conductive, Self-healing consumer electronic device coatings)
  • Household care and lifestyle (Self-cleaning and easy-to-clean, Antimicrobial, Food preparation and processing, Indoor pollutants and air quality)
  • Marine (Anti-corrosion, Abrasion resistance, Chemical resistance, Fouling control)
  • Medical and healthcare (Anti-fouling coatings, Anti-microbial, anti-viral and infection control, Omniphobic device coatings (e.g. hearing aids), Medical textiles, Nanosilver, Medical device coatings, Light activated Titanium dioxide nanocoatings)
  • Military and defence (Uniforms, Military equipment, Chemical and biological protection, Decontamination, Thermal barrier, EMI/ESD Shielding, Anti-reflection)
  • Packaging (Edible coatings, Barrier films, Anti-microbial, Biobased and active packaging)
  • Textiles and apparel (Protective textiles, UV-resistant textile coatings,  Conductive coatings, Antimicrobial)
  • Energy (Wind energy, Solar, Anti-reflection, Gas turbine coatings 375)
  • Oil and gas (Anti-corrosion pipelines, Drilling)
  • Tools and machining.
  • Anti-counterfeiting. 

Report Contents Include:

  • Production and synthesis methods. 
  • Market analysis by nanocoatings types and end user markets
  • Industry collaborations and licensing agreements. 
  • Analysis of types of nanomaterials used in nanocoatings. 
  • Global revenues, historical and forecast to 2031, by type, end user market and regional markets. 
  • 445 company profiles

Companies Profiled Include:

  • Bio-Gate
  • Tesla Nanocoatings
  • HZO
  • EnvisionSQ
  • P2i
  • Swift Coat
  • HeiQ Materials
  • OrganoClick
  • Nanosli Finland
  • Graphite Innovation Technologies
  • Reactive Surfaces
  • Kastus
  • Advanced Materials JTJ
  • Zen Graphene Solutions 

This is a non-exhaustive list.


Profiles include company description products target markets and contact details. 


Note: Product cover images may vary from those shown

FEATURED COMPANIES

  • 3M
  • Cleancorp Nanocoatings
  • FutureCarbon GmbH
  • Lipocoat BV
  • Nanoveu Pte. Ltd.
  • Schott AG

1. Executive Summary
1.1 Why Nanocoatings?
1.2 Advantages Over Traditional Coatings
1.3 Improvements and Disruption in Coatings Markets
1.4 Anti-Viral Nanoparticles and Nanocoatings
1.4.1.1 Reusable Personal Protective Equipment (Ppe)
1.4.1.2 Wipe on Coatings
1.4.1.3 Facemask Coatings
1.4.1.4 Long-Term Mitigation of Surface Contamination with Nanocoatings
1.5 End-user Market for Nanocoatings
1.6 The Nanocoatings Market in 2020
1.7 Global Market Size, Historical and Estimated to 2020
1.7.1 Global Revenues for Nanocoatings 2010-2031
1.7.2 Regional Demand for Nanocoatings
1.8 Market Challenges


2 Overview of Nanocoatings
2.1 Properties
2.2 Benefits of Using Nanocoatings
2.2.1 Types of Nanocoatings
2.3 Production and Synthesis Methods
2.3.1 Film Coatings Techniques Analysis
2.3.2 Superhydrophobic Coatings on Substrates
2.3.3 Electrospray and Electrospinning
2.3.4 Chemical and Electrochemical Deposition
2.3.4.1 Chemical Vapor Deposition (Cvd)
2.3.4.2 Physical Vapor Deposition (Pvd)
2.3.4.3 Atomic Layer Deposition (Ald)
2.3.4.4 Aerosol Coating
2.3.4.5 Layer-By-Layer Self-Assembly (Lbl)
2.3.4.6 Sol-Gel Process
2.3.4.7 Etching
2.4 Hydrophobic Coatings and Surfaces
2.4.1 Hydrophilic Coatings
2.4.2 Hydrophobic Coatings
2.4.2.1 Properties
2.4.2.2 Application in Facemasks
2.5 Superhydrophobic Coatings and Surfaces
2.5.1 Properties
2.5.1.1 Antibacterial Use
2.5.2 Durability Issues
2.5.3 Nanocellulose
2.6 Oleophobic and Omniphobic Coatings and Surfaces
2.6.1 Slips
2.6.2 Covalent Bonding
2.6.3 Step-Growth Graft Polymerization
2.6.4 Applications
2.7 Nanomaterials Used in Nanocoatings
2.7.1 Graphene
2.7.1.1 Properties and Coatings Applications
2.7.2 Carbon Nanotubes (Mwcnt and Swcnt)
2.7.2.1 Properties and Applications
2.7.3 Fullerenes
2.7.3.1 Properties
2.7.3.2 Antimicrobial Activity
2.7.4 Silicon Dioxide/Silica Nanoparticles (Nano-Sio2)
2.7.4.1 Properties and Applications
2.7.5 Nanosilver
2.7.5.1 Properties and Applications
2.7.5.2 Silver Nanocoatings
2.7.5.3 Antimicrobial Silver Paints
2.7.6 Titanium Dioxide Nanoparticles (Nano-Tio2)
2.7.6.1 Properties and Applications
2.7.7 Aluminium Oxide Nanoparticles (Al2O3-Nps)
2.7.7.1 Properties and Applications
2.7.8 Zinc Oxide Nanoparticles (Zno-Nps)
2.7.8.1 Properties and Applications
2.7.9 Dendrimers
2.7.9.1 Properties and Applications
2.7.10 Nanodiamonds
2.7.10.1 Properties and Applications
2.7.11 Nanocellulose (Cellulose Nanofibers, Cellulose Nanocrystals and Bacterial Cellulose)
2.7.11.1 Properties and Applications
2.7.12 Chitosan Nanoparticles
2.7.12.1 Properties
2.7.12.2 Wound Dressings
2.7.12.3 Packaging Coatings and Films
2.7.12.4 Food Storage
2.7.13 Copper Nanoparticles
2.7.13.1 Properties
2.7.13.2 Application in Antimicrobial Nanocoatings


3 Market Analysis by Nanocoatings Type
3.1 Anti-Fingerprint Nanocoatings
3.1.1 Market Overview
3.1.2 Market Assessment
3.1.3 Market Drivers and Trends
3.1.4 Applications
3.1.4.1 Touchscreens
3.1.4.2 Spray-On Anti-Fingerprint Coating
3.1.5 Global Market Size
3.1.6 Product Developers
3.2 Anti-Fog Nanocoatings
3.2.1 Types of Anti-Fog Coatings
3.2.2 Biomimetic Anti-Fogging Materials
3.2.3 Markets and Applications
3.2.3.1 Automotive
3.2.3.2 Solar Panels
3.2.3.3 Healthcare and Medical
3.2.3.4 Display Devices and Eyewear (Optics)
3.2.3.5 Food Packaging and Agricultural Films
3.3 Anti-Microbial and Anti-Viral Nanocoatings
3.3.1 Mode of Action
3.3.2 Anti-Viral Coatings and Surfaces
3.3.3 Market Overview
3.3.4 Market Assessment
3.3.5 Market Drivers and Trends
3.3.6 Applications
3.3.7 Global Market Size
3.3.8 Product Developers
3.4 Anti-Corrosion Nanocoatings
3.4.1 Market Overview
3.4.2 Market Assessment
3.4.3 Market Drivers and Trends
3.4.4 Applications
3.4.4.1 Smart Self-Healing Coatings
3.4.4.2 Superhydrophobic Coatings
3.4.4.3 Graphene
3.4.5 Global Market Size
3.4.6 Product Developers
3.5 Abrasion & Wear-Resistant Nanocoatings
3.5.1 Market Overview
3.5.2 Market Assessment
3.5.3 Market Drivers and Trends
3.5.4 Applications
3.5.5 Global Market Size
3.5.6 Product Developers
3.6 Barrier Nanocoatings
3.6.1 Market Assessment
3.6.2 Market Drivers and Trends
3.6.3 Applications
3.6.3.1 Food and Beverage Packaging
3.6.3.2 Moisture Protection
3.6.3.3 Graphene
3.6.4 Global Market Size
3.6.5 Product Developers
3.7 Anti-Fouling and Easy-To-Clean Nanocoatings
3.7.1 Market Overview
3.7.2 Market Assessment
3.7.3 Market Drivers and Trends
3.7.4 Applications
3.7.4.1 Hydrophobic and Olephobic Coatings
3.7.4.2 Anti-Graffiti
3.7.5 Global Market Size
3.7.6 Product Developers
3.8 Self-Cleaning Nanocoatings
3.8.1 Market Overview
3.8.2 Market Assessment
3.8.3 Market Drivers and Trends
3.8.4 Applications
3.8.5 Global Market Size
3.8.6 Product Developers
3.9 Photocatalytic Nanocoatings
3.9.1 Market Overview
3.9.2 Market Assessment
3.9.3 Market Drivers and Trends
3.9.4 Applications
3.9.4.1 Self-Cleaning Coatings-Glass
3.9.4.2 Self-Cleaning Coatings-Building and Construction Surfaces
3.9.4.3 Photocatalytic Oxidation (Pco) Indoor Air Filters
3.9.4.4 Water Treatment
3.9.4.5 Medical Facilities
3.9.4.6 Antimicrobial Coating Indoor Light Activation
3.9.5 Global Market Size
3.9.6 Product Developers
3.10 Uv-Resistant Nanocoatings
3.10.1 Market Overview
3.10.2 Market Assessment
3.10.3 Market Drivers and Trends
3.10.4 Applications
3.10.4.1 Textiles
3.10.4.2 Wood Coatings
3.10.5 Global Market Size
3.10.6 Product Developers
3.11 Thermal Barrier and Flame Retardant Nanocoatings
3.11.1 Market Overview
3.11.2 Market Assessment
3.11.3 Market Drivers and Trends
3.11.4 Applications
3.11.5 Global Market Size
3.11.6 Product Developers
3.12 Anti-Icing and De-Icing Nanocoatings
3.12.1 Market Overview
3.12.2 Market Assessment
3.12.3 Market Drivers and Trends
3.12.4 Applications
3.12.4.1 Hydrophobic and Superhydrophobic Coatings (Hsh)
3.12.4.2 Heatable Coatings
3.12.4.3 Anti-Freeze Protein Coatings
3.12.5 Global Market Size
3.12.6 Product Developers
3.13 Anti-Reflective Nanocoatings
3.13.1 Market Overview
3.13.2 Market Drivers and Trends
3.13.3 Applications
3.13.4 Global Market Size
3.13.5 Product Developers
3.14 Self-Healing Nanocoatings
3.14.1 Market Overview
3.14.1.1 Extrinsic Self-Healing
3.14.1.2 Capsule-Based
3.14.1.3 Vascular Self-Healing
3.14.1.4 Intrinsic Self-Healing
3.14.1.5 Healing Volume
3.14.2 Applications
3.14.2.1 Self-Healing Coatings
3.14.2.2 Anti-Corrosion
3.14.2.3 Scratch Repair
3.14.2.4 Polyurethane Clear Coats
3.14.2.5 Micro-/Nanocapsules
3.14.2.6 Microvascular Networks
3.14.2.7 Reversible Polymers
3.14.2.8 Click Polymerization
3.14.2.9 Polyampholyte Hydrogels
3.14.2.10 Shape Memory
3.14.3 Global Market Size
3.14.4 Product Developers


4 Market Segment Analysis, by End-user Market
4.1 Aviation and Aerospace
4.1.1 Market Drivers and Trends
4.1.2 Applications
4.1.2.1 Thermal Protection
4.1.2.2 Icing Prevention
4.1.2.3 Conductive and Anti-Static
4.1.2.4 Corrosion Resistant
4.1.2.5 Insect Contamination
4.1.3 Global Market Size
4.1.3.1 Nanocoatings Opportunity
4.1.3.2 Global Revenues 2010-2031
4.1.4 Companies
4.2 Automotive
4.2.1 Market Drivers and Trends
4.2.2 Applications
4.2.2.1 Anti-Scratch Nanocoatings
4.2.2.2 Conductive Coatings
4.2.2.3 Hydrophobic and Oleophobic
4.2.2.4 Anti-Corrosion
4.2.2.5 Uv-Resistance
4.2.2.6 Thermal Barrier
4.2.2.7 Flame Retardant
4.2.2.8 Anti-Fingerprint
4.2.2.9 Anti-Bacterial
4.2.2.10 Self-Healing
4.2.3 Global Market Size
4.2.3.1 Nanocoatings Opportunity
4.2.3.2 Global Revenues 2010-2031
4.2.4 Companies
4.3 Construction
4.3.1 Market Drivers and Trends
4.3.2 Applications
4.3.2.1 Protective Coatings for Glass, Concrete and Other Construction Materials
4.3.2.2 Photocatalytic Nano-Tio2 Coatings
4.3.2.3 Anti-Graffiti
4.3.2.4 Uv-Protection
4.3.2.5 Titanium Dioxide Nanoparticles
4.3.2.6 Zinc Oxide Nanoparticles
4.3.3 Global Market Size
4.3.3.1 Nanocoatings Opportunity
4.3.3.2 Global Revenues 2010-2031
4.3.4 Companies
4.4 Electronics
4.4.1 Market Drivers
4.4.2 Applications
4.4.2.1 Transparent Functional Coatings
4.4.2.2 Anti-Reflective Coatings for Displays
4.4.2.3 Waterproof Coatings
4.4.2.4 Conductive Nanocoatings and Films
4.4.2.5 Anti-Fingerprint
4.4.2.6 Anti-Abrasion
4.4.2.7 Conductive
4.4.2.8 Self-Healing Consumer Electronic Device Coatings
4.4.2.9 Flexible and Stretchable Electronics
4.4.3 Global Market Size
4.4.3.1 Nanocoatings Opportunity
4.4.3.2 Global Revenues 2010-2031
4.4.4 Companies
4.5 Household Care, Sanitary and Indoor Air Quality
4.5.1 Market Drivers and Trends
4.5.2 Applications
4.5.2.1 Self-Cleaning and Easy-To-Clean
4.5.2.2 Food Preparation and Processing
4.5.2.3 Indoor Pollutants and Air Quality
4.5.3 Global Market Size
4.5.3.1 Nanocoatings Opportunity
4.5.3.2 Global Revenues 2010-2031
4.5.4 Companies
4.6 Marine
4.6.1 Market Drivers and Trends
4.6.2 Applications
4.6.3 Global Market Size
4.6.3.1 Nanocoatings Opportunity
4.6.3.2 Global Revenues 2010-2031
4.6.4 Companies
4.7 Medical & Healthcare
4.7.1 Market Drivers and Trends
4.7.2 Applications
4.7.2.1 Anti-Fouling Coatings
4.7.2.2 Anti-Microbial, Anti-Viral and Infection Control
4.7.2.3 Medical Textiles
4.7.2.4 Nanosilver
4.7.2.5 Medical Device Coatings
4.7.3 Global Market Size
4.7.3.1 Nanocoatings Opportunity
4.7.3.2 Global Revenues 2010-2031
4.7.4 Companies
4.8 Military and Defence
4.8.1 Market Drivers and Trends
4.8.2 Applications
4.8.2.1 Textiles
4.8.2.2 Military Equipment
4.8.2.3 Chemical and Biological Protection
4.8.2.4 Decontamination
4.8.2.5 Thermal Barrier
4.8.2.6 Emi/Esd Shielding
4.8.2.7 Anti-Reflection
4.8.3 Global Market Size
4.8.3.1 Nanocoatings Opportunity
4.8.3.2 Global Market Revenues 2010-2031
4.8.4 Companies
4.9 Packaging
4.9.1 Market Drivers and Trends
4.9.2 Applications
4.9.2.1 Barrier Films
4.9.2.2 Anti-Microbial
4.9.2.3 Biobased and Active Packaging
4.9.3 Global Market Size
4.9.3.1 Nanocoatings Opportunity
4.9.3.2 Global Market Revenues 2010-2031
4.9.4 Companies
4.10 Textiles and Apparel
4.10.1 Market Drivers and Trends
4.10.2 Applications
4.10.2.1 Protective Textiles
4.10.2.2 Uv-Resistant Textile Coatings
4.10.2.3 Conductive Coatings
4.10.3 Global Market Size
4.10.3.1 Nanocoatings Opportunity
4.10.3.2 Global Market Revenues 2010-2031
4.10.4 Companies
4.11 Energy
4.11.1 Market Drivers and Trends
4.11.2 Applications
4.11.2.1 Wind Energy
4.11.2.2 Solar
4.11.2.3 Anti-Reflection
4.11.2.4 Gas Turbine Coatings
4.11.3 Global Market Size
4.11.3.1 Nanocoatings Opportunity
4.11.3.2 Global Market Revenues 2010-2031
4.11.4 Companies
4.12 Oil and Gas
4.12.1 Market Drivers and Trends
4.12.2 Applications
4.12.2.1 Anti-Corrosion Pipelines
4.12.2.2 Drilling in Sub-Zero Climates
4.12.3 Global Market Size
4.12.3.1 Nanocoatings Opportunity
4.12.3.2 Global Market Revenues 2010-2031
4.12.4 Companies
4.13 Tools and Machining
4.13.1 Market Drivers and Trends
4.13.2 Applications
4.13.3 Global Market Size
4.13.3.1 Global Market Revenues 2010-2031
4.13.4 Companies
4.14 Anti-Counterfeiting
4.14.1 Market Drivers and Trends
4.14.2 Applications
4.14.3 Global Market Size
4.14.3.1 Global Market Revenues 2010-2031
4.14.4 Companies


5 Nanocoatings Company Profiles 404 (445 Company Profiles)


6 Nanocoatings Companies No Longer Trading


7 Research Methodology
7.1 Aims and Objectives of the Study
7.2 Market Definition
7.2.1 Properties of Nanomaterials
7.2.2 Categorization


8 References


List of Tables
Table 1: Properties of Nanocoatings
Table 2. Market Drivers and Trends in Nanocoatings
Table 3: End-user Markets for Nanocoatings
Table 4: Global Revenues for Nanocoatings, 2010-2031, Millions Usd
Table 5: Market and Technical Challenges for Nanocoatings
Table 6: Technology for Synthesizing Nanocoatings Agents
Table 7: Film Coatings Techniques
Table 8. Contact Angles of Hydrophilic, Super Hydrophilic, Hydrophobic and Superhydrophobic Surfaces
Table 9: Disadvantages of Commonly Utilized Superhydrophobic Coating Methods
Table 10. Applications of Oleophobic & Omniphobic Coatings
Table 11: Nanomaterials Used in Nanocoatings and Applications
Table 12: Graphene Properties Relevant to Application in Coatings
Table 13: Uncoated Vs. Graphene Coated (Right) Steel Wire in Corrosive Environment Solution After 30 Days
Table 14. Bactericidal Characters of Graphene-Based Materials
Table 15: Market and Applications for Swcnts in Coatings
Table 16. Types of Carbon-Based Nanoparticles as Antimicrobial Agent, Their Mechanisms of Action and Characteristics
Table 17. Applications of Nanosilver in Coatings
Table 18. Markets and Applications for Antimicrobial Nanosilver Nanocoatings
Table 19. Antibacterial Effects of Zno Nps in Different Bacterial Species
Table 20. Market and Applications for Nds in Anti-Friction and Anti-Corrosion Coatings
Table 21. Applications of Nanocellulose in Coatings
Table 22: Applications of Cellulose Nanofibers(Cnf)
Table 23: Applications of Bacterial Cellulose (Bc)
Table 24. Mechanism of Chitosan Antimicrobial Action
Table 25. Market Overview for Anti-Fingerprint Nanocoatings
Table 26: Market Assessment for Anti-Fingerprint Nanocoatings
Table 27. Market Drivers and Trends for Anti-Fingerprint Nanocoatings
Table 28: Anti-Fingerprint Coatings Product and Application Developers
Table 29. Types of Anti-Fog Solutions
Table 30. Typical Surfaces with Superwettability Used in Anti-Fogging
Table 31. Types of Biomimetic Materials and Properties
Table 32. Market Overview of Anti-Fog Coatings in Automotive
Table 33. Market Overview of Anti-Fog Coatings in Solar Panels
Table 34. Market Overview of Anti-Fog Coatings in Healthcare and Medical
Table 35. Market Overview of Anti-Fog Coatings in Display Devices and Eyewear (Optics)
Table 36. Market Overview of Anti-Fog Coatings in Food Packaging and Agricultural Films
Table 37. Growth Modes of Bacteria and Characteristics
Table 38. Anti-Microbial Nanocoatings-Nanomaterials Used, Principles, Properties and Applications
Table 39. Market Assessment for Anti-Microbial Nanocoatings
Table 40. Market Drivers and Trends for Anti-Microbial and Anti-Viral Nanocoatings
Table 41. Nanomaterials Used in Anti-Microbial and Anti-Viral Nanocoatings and Applications
Table 42: Anti-Microbial Amd Anti-Viral Nanocoatings Product and Application Developers
Table 43. Market Overview for Anti-Corrosion Nanocoatings
Table 44: Market Assessment for Anti-Corrosion Nanocoatings
Table 45. Market Drivers and Trends for Use of Anti-Corrosion Nanocoatings
Table 46: Superior Corrosion Protection Using Graphene-Added Epoxy Coatings, Right, as Compared to a Commercial Zinc-Rich Epoxy Primer, Left
Table 47: Applications for Anti-Corrosion Nanocoatings
Table 48: Opportunity for Anti-Corrosion Nanocoatings by
Table 49: Anti-Corrosion Nanocoatings Product and Application Developers
Table 50. Market Overview for Abrasion and Wear-Resistant Nanocoatings
Table 51. Market Assessment for Abrasion and Wear-Resistant Nanocoatings
Table 52. Market Driversaand Trends for Use of Abrasion and Wear Resistant Nanocoatings
Table 53. Applications for Abrasion and Wear-Resistant Nanocoatings
Table 54. Potential Addressable Market for Abrasion and Wear-Resistant Nanocoatings
Table 55: Abrasion and Wear Resistant Nanocoatings Product and Application Developers
Table 56.Market Assessment for Barrier Nanocoatings and Films
Table 57. Market Drivers and Trends for Barrier Nanocoatings
Table 58. Potential Addressable Market for Barrier Nanocoatings
Table 59: Barrier Nanocoatings Product and Application Developers
Table 60: Anti-Fouling and Easy-To-Clean Nanocoatings-Nanomaterials Used, Principles, Properties and Applications
Table 61. Market Assessment for Anti-Fouling and Easy-To-Clean Nanocoatings
Table 62. Market Drivers and Trends for Use of Anti-Fouling and Easy to Clean Nanocoatings
Table 63. Anti-Fouling and Easy-To-Clean Nanocoatings Markets, Applications and Potential Addressable Market
Table 64: Anti-Fouling and Easy-To-Clean Nanocoatings Product and Application Developers
Table 65. Market Overview for Self-Cleaning Nanocoatings
Table 66. Market Assessment for Self-Cleaning (Bionic) Nanocoatings
Table 67. Market Drivers and Trends for Self-Cleaning Nanocoatings
Table 68. Self-Cleaning (Bionic) Nanocoatings-Markets and Applications
Table 69: Self-Cleaning (Bionic) Nanocoatings Product and Application Developers
Table 70. Market Overview for Photocatalytic Nanocoatings
Table 71. Market Assessment for Photocatalytic Nanocoatings
Table 72. Market Drivers and Trends in Photocatalytic Nanocoatings
Table 73. Photocatalytic Nanocoatings-Markets, Applications and Potential Addressable Market Size by
Table 74: Self-Cleaning (Photocatalytic) Nanocoatings Product and Application Developers
Table 75. Market Overview for Uv Resistant Nanocoatings
Table 76: Market Assessment for Uv-Resistant Nanocoatings
Table 77. Market Drivers and Trends in Uv-Resistant Nanocoatings
Table 78. Uv-Resistant Nanocoatings-Markets, Applications and Potential Addressable Market
Table 79: Uv-Resistant Nanocoatings Product and Application Developers
Table 80. Market Overview for Thermal Barrier and Flame Retardant Nanocoatings
Table 81. Market Assessment for Thermal Barrier and Flame Retardant Nanocoatings
Table 82. Market Drivers and Trends in Thermal Barrier and Flame Retardant Nanocoatings
Table 83. Nanomaterials Utilized in Thermal Barrier and Flame Retardant Coatings and Benefits Thereof
Table 84. Thermal Barrier and Flame Retardant Nanocoatings-Markets, Applications and Potential Addressable Markets
Table 85: Thermal Barrier and Flame Retardant Nanocoatings Product and Application Developers
Table 86. Market Overview for Anti-Icing and De-Icing Nanocoatings
Table 87. Market Assessment for Anti-Icing and De-Icing Nanocoatings
Table 88. Market Drivers and Trends for Use of Anti-Icing and De-Icing Nanocoatings
Table 89: Nanomaterials Utilized in Anti-Icing Coatings and Benefits Thereof
Table 90. Anti-Icing and De-Icing Nanocoatings-Markets, Applications and Potential Addressable Markets
Table 91: Anti-Icing and De-Icing Nanocoatings Product and Application Developers
Table 92: Anti-Reflective Nanocoatings-Nanomaterials Used, Principles, Properties and Applications
Table 93. Market Drivers and Trends in Anti-Reflective Nanocoatings
Table 94. Market Opportunity for Anti-Reflection Nanocoatings
Table 95: Anti-Reflective Nanocoatings Product and Application Developers
Table 96: Types of Self-Healing Coatings and Materials
Table 97: Comparative Properties of Self-Healing Materials
Table 98: Types of Self-Healing Nanomaterials
Table 99: Companies Producing Polyurethane Clear Coat Products for Self-Healing
Table 100. Self-Healing Materials and Coatings Markets and Applications
Table 101: Self-Healing Nanocoatings Product and Application Developers
Table 102. Market Drivers and Trends for Nanocoatings in Aviation and Aerospace
Table 103: Types of Nanocoatings Utilized in Aerospace and Application
Table 104: Revenues for Nanocoatings in the Aerospace Industry, 2010-2031
Table 105: Aerospace Nanocoatings Product Developers
Table 106: Market Drivers and Trends for Nanocoatings in the Automotive Market
Table 107: Anti-Scratch Automotive Nanocoatings
Table 108: Conductive Automotive Nanocoatings
Table 109: Hydro- and Oleophobic Automotive Nanocoatings
Table 110: Anti-Corrosion Automotive Nanocoatings
Table 111: Uv-Resistance Automotive Nanocoatings
Table 112: Thermal Barrier Automotive Nanocoatings
Table 113: Flame Retardant Automotive Nanocoatings
Table 114: Anti-Fingerprint Automotive Nanocoatings
Table 115: Anti-Bacterial Automotive Nanocoatings
Table 116: Self-Healing Automotive Nanocoatings
Table 117: Revenues for Nanocoatings in the Automotive Industry, 2010-2031, US, Conservative and Optimistic Estimate
Table 118: Automotive Nanocoatings Product Developers
Table 119: Market Drivers and Trends for Nanocoatings in the Construction Market
Table 120: Nanocoatings Applied in the Construction Industry-Type of Coating, Nanomaterials Utilized and Benefits
Table 121: Photocatalytic Nanocoatings-Markets and Applications
Table 122: Revenues for Nanocoatings in Construction, Architecture and Exterior Protection, 2010-2031, US
Table 123: Construction, Architecture and Exterior Protection Nanocoatings Product Developers
Table 124: Market Drivers for Nanocoatings in Electronics
Table 125: Main Companies in Waterproof Nanocoatings for Electronics, Products and Synthesis Methods
Table 126: Conductive Electronics Nanocoatings
Table 127: Anti-Fingerprint Electronics Nanocoatings
Table 128: Anti-Abrasion Electronics Nanocoatings
Table 129: Conductive Electronics Nanocoatings
Table 130: Revenues for Nanocoatings in Electronics, 2010-2031, US
Table 131: Nanocoatings Applications Developers in Electronics
Table 132: Market Drivers and Trends for Nanocoatings in Household Care and Sanitary
Table 133: Revenues for Nanocoatings in Household Care, Sanitary and Indoor Air Quality, 2010-2031, US
Table 134: Household Care, Sanitary and Indoor Air Quality Nanocoatings Product Developers
Table 135: Market Drivers and Trends for Nanocoatings in the Marine Industry
Table 136: Nanocoatings Applied in the Marine Industry-Type of Coating, Nanomaterials Utilized and Benefits
Table 137: Revenues for Nanocoatings in the Marine Sector, 2010-2031, US
Table 138: Marine Nanocoatings Product Developers
Table 139: Market Drivers and Trends for Nanocoatings in Medicine and Healthcare
Table 140: Nanocoatings Applied in the Medical Industry-Type of Coating, Nanomaterials Utilized, Benefits and Applications
Table 141: Types of Advanced Coatings Applied in Medical Devices and Implants
Table 142: Nanomaterials Utilized in Medical Implants
Table 143: Revenues for Nanocoatings in Medical and Healthcare, 2010-2031, US
Table 144: Medical and Healthcare Nanocoatings Product Developers
Table 145: Market Drivers and Trends for Nanocoatings in the Military and Defence Industry
Table 146: Revenues for Nanocoatings in Military and Defence, 2010-2031, US
Table 147: Military and Defence Nanocoatings Product and Application Developers
Table 148: Market Drivers and Trends for Nanocoatings in the Packaging Industry
Table 149: Revenues for Nanocoatings in Packaging, 2010-2031, US
Table 150: Packaging Nanocoatings Companies
Table 151: Market Drivers and Trends for Nanocoatings in the Textiles and Apparel Industry
Table 152: Applications in Textiles, by Advanced Materials Type and Benefits Thereof
Table 153: Nanocoatings Applied in the Textiles Industry-Type of Coating, Nanomaterials Utilized, Benefits and Applications
Table 154: Applications and Benefits of Graphene in Textiles and Apparel
Table 155: Revenues for Nanocoatings in Textiles and Apparel, 2010-2031, US
Table 156: Textiles Nanocoatings Product Developers
Table 157: Market Drivers and Trends for Nanocoatings in the Energy Industry
Table 158: Revenues for Nanocoatings in Energy, 2010-2031, US
Table 159: Renewable Energy Nanocoatings Product Developers
Table 160: Market Drivers and Trends for Nanocoatings in the Oil and Gas Exploration Industry
Table 161: Desirable Functional Properties for the Oil and Gas Industry Afforded by Nanomaterials in Coatings
Table 162: Revenues for Nanocoatings in Oil and Gas Exploration, 2010-2031, US
Table 163: Oil and Gas Nanocoatings Product Developers
Table 164: Market Drivers and Trends for Nanocoatings in Tools and Machining
Table 165: Revenues for Nanocoatings in Tools and Manufacturing, 2010-2031, US
Table 166: Tools and Manufacturing Nanocoatings Product and Application Developers
Table 167: Revenues for Nanocoatings in Anti-Counterfeiting, 2010-2031, US
Table 168: Anti-Counterfeiting Nanocoatings Product and Application Developers
Table 169. Carbodeon Ltd. Oy Nanodiamond Product List
Table 170. Photocatalytic Coating Schematic
Table 171. Natoco Anti-Fog Coating Properties
Table 172. Film Properties of Modiper H
Table 173. Ray-Techniques Ltd. Nanodiamonds Product List
Table 174. Comparison of Nd Produced by Detonation and Laser Synthesis
Table 175. Nanocoatings Companies No Longer Trading
Table 176: Categorization of Nanomaterials


List of Figures
Figure 1. Schematic of Anti-Viral Coating Using Nano-Actives for Inactivation of Any Adhered Virus on the Surfaces
Figure 2. Face Masks Coated with Antibacterial & Antiviral Nanocoating
Figure 3: Global Revenues for Nanocoatings, 2010-2031, Millions Usd
Figure 4: Regional Demand for Nanocoatings, 2019, Millions Usd
Figure 5: Hydrophobic Fluoropolymer Nanocoatings on Electronic Circuit Boards
Figure 6: Nanocoatings Synthesis Techniques
Figure 7: Techniques for Constructing Superhydrophobic Coatings on Substrates
Figure 8: Electrospray Deposition
Figure 9: Cvd Technique
Figure 10: Schematic of Ald
Figure 11: Sem Images of Different Layers of Tio2 Nanoparticles in Steel Surface
Figure 12: The Coating System is Applied to the Surface.The Solvent Evaporates
Figure 13: 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 14: 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 15: (A) Water Drops on a Lotus Leaf
Figure 16. 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 17: Contact Angle on Superhydrophobic Coated Surface
Figure 18: Self-Cleaning Nanocellulose Dishware
Figure 19: Slips Repellent Coatings
Figure 20: Omniphobic Coatings
Figure 21: Graphair Membrane Coating
Figure 22: Antimicrobial Activity of Graphene Oxide (Go)
Figure 23: Conductive Graphene Coatings for Rotor Blades
Figure 24: Water Permeation Through a Brick Without (Left) and with (Right) “Graphene Paint” Coating
Figure 25: Graphene Heat Transfer Coating
Figure 26 Carbon Nanotube Cable Coatings
Figure 27 Formation of a Protective Cnt-Based Char Layer During Combustion of a Cnt-Modified Coating
Figure 28. Mechanism of Antimicrobial Activity of Carbon Nanotubes
Figure 29: Fullerene Schematic
Figure 30: Hydrophobic Easy-To-Clean Coating
Figure 31: Anti-Fogging Nanocoatings on Protective Eyewear
Figure 32: Silica Nanoparticle Anti-Reflection Coating on Glass
Figure 33 Anti-Bacterials Mechanism of Silver Nanoparticle Coating
Figure 34: Mechanism of Photocatalysis on a Surface Treated with Tio2 Nanoparticles
Figure 35: Schematic Showing the Self-Cleaning Phenomena on Superhydrophilic Surface
Figure 36: Titanium Dioxide-Coated Glass (Left) and Ordinary Glass (Right)
Figure 37: Self-Cleaning Mechanism Utilizing Photooxidation
Figure 38: Schematic of Photocatalytic Air Purifying Pavement
Figure 39: Schematic of Photocatalytic Indoor Air Purification Filter
Figure 40: Schematic of Photocatalytic Water Purification
Figure 41. Schematic of Antibacterial Activity of Zno Nps
Figure 42: Types of Nanocellulose
Figure 43: Cnf Gel
Figure 44: Tem Image of Cellulose Nanocrystals
Figure 45: Extracting Cnc from Trees
Figure 46: An Iridescent Biomimetic Cellulose Multilayer Film Remains After Water That Contains Cellulose Nanocrystals Evaporates
Figure 47: Cnc Slurry
Figure 48. Tem Images of Burkholderia Seminalis Treated with (A, C) Buffer (Control) and (B, D) 2.0 Mg/Ml Chitosan; (A: Additional Layer; B: Membrane Damage)
Figure 49. Anti-Fingerprint Nanocoating on Glass
Figure 50: Schematic of Anti-Fingerprint Nanocoatings
Figure 51: Toray Anti-Fingerprint Film (Left) and an Existing Lipophilic Film (Right)
Figure 52: Types of Anti-Fingerprint Coatings Applied to Touchscreens
Figure 53: Anti-Fingerprint Nanocoatings Applications
Figure 54: Revenues for Anti-Fingerprint Nanocoatings, 2019-2031, Adjusted for COVID-19 Related Demand, Conservative and High Estimates (Millions Usd)
Figure 55. Anti-Fog Goggles
Figure 56. Hydrophilic Effect
Figure 57. Anti-Fogging Nanocoatings on Protective Eyewear
Figure 58. Superhydrophilic Zwitterionic Polymer Brushes
Figure 59. Face Shield with Anti-Fog Coating
Figure 60. Schematic of Anti-Viral Coating Using Nano-Actives for Inactivation of Any Adhered Virus on the Surfaces
Figure 61. Nano-Coated Self-Cleaning Touchscreen
Figure 62: Revenues for Anti-Microbial and Anti-Viral Nanocoatings, 2019-2031, Adjusted for COVID-19 Related Demand, Conservative and High Estimates (Millions Usd)
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: Hybrid Self-Healing Sol-Gel Coating
Figure 67: Schematic of Anti-Corrosion Via Superhydrophobic Surface
Figure 68: Potential Addressable Market for Anti-Corrosion Nanocoatings by
Figure 69: Revenues for Anti-Corrosion Nanocoatings, 2019-2031, Adjusted for COVID-19 Related Demand, Conservative and High Estimates (Millions Usd)
Figure 70: Revenues for Abrasion and Wear Resistant Nanocoatings, 2019-2031, Adjusted for COVID-19 Related Demand, Conservative and High Estimates (Millions Usd)
Figure 71: Nanocomposite Oxygen Barrier Schematic
Figure 72: Schematic of Barrier Nanoparticles Deposited on Flexible Substrates
Figure 73: Revenues for Barrier Nanocoatings, 2019-2031, Adjusted for COVID-19 Related Demand, Conservative and High Estimates (Millions Usd)
Figure 74: Anti-Fouling Treatment for Heat-Exchangers
Figure 75: Removal of Graffiti After Application of Nanocoating
Figure 76: Potential Addressable Market for Anti-Fouling and Easy-To-Clean Nanocoatings by
Figure 77: Revenues for Anti-Fouling and Easy-To-Clean Nanocoatings, 2019-2031, Adjusted for COVID-19 Related Demand, Conservative and High Estimates (Millions Usd)
Figure 78: Self-Cleaning Superhydrophobic Coating Schematic
Figure 79: Potential Addressable Market for Self-Cleaning (Bionic) Nanocoatings by
Figure 80. Revenues for Self-Cleaning (Bionic) Nanocoatings, 2019-2031, US, Adjusted for COVID-19 Related Demand, Conservative and High Estimates
Figure 81. Schematic Showing the Self-Cleaning Phenomena on Superhydrophilic Surface
Figure 82: Schematic of Photocatalytic Air Purifying Pavement
Figure 83: Self-Cleaning Mechanism Utilizing Photooxidation
Figure 84: Photocatalytic Oxidation (Pco) Air Filter
Figure 85: Schematic of Photocatalytic Water Purification
Figure 86: Tokyo Station Granroof. the Titanium Dioxide Coating Ensures Long-Lasting Whiteness
Figure 87: Potential Addressable Market for Self-Cleaning (Photocatalytic) Nanocoatings by
Figure 88. Revenues for Self-Cleaning (Photocatalytic) Nanocoatings, 2019-2031, US, Adjusted for COVID-19 Related Demand, Conservative and High Estimates
Figure 89: Markets for Uv-Resistant Nanocoatings, %,
Figure 90: Potential Addressable Market for Uv-Resistant Nanocoatings
Figure 91: Revenues for Uv-Resistant Nanocoatings, 2019-2031, Adjusted for COVID-19 Related Demand, Conservative and High Estimates (Millions Usd)
Figure 92: Flame Retardant Nanocoating
Figure 93: Markets for Thermal Barrier and Flame Retardant Nanocoatings, %,
Figure 94: Potential Addressable Market for Thermal Barrier and Flame Retardant Nanocoatings by
Figure 95: Revenues for Thermal Barrier and Flame Retardant Nanocoatings, 2019-2031, Adjusted for COVID-19 Related Demand, Conservative and High Estimates (Millions Usd)
Figure 96: Nanocoated Surface in Comparison to Existing Surfaces
Figure 97: Nanomyte® Superai, a Durable Anti-Ice Coating
Figure 98: Slips Coating Schematic
Figure 99: Carbon Nanotube Based Anti-Icing/De-Icing Device
Figure 100: Cnt Anti-Icing Nanocoating
Figure 101: Potential Addressable Market for Anti-Icing and De-Icing Nanocoatings by
Figure 102: Revenues for Anti-Icing and De-Icing Nanocoatings, 2019-2031, Adjusted for COVID-19 Related Demand, Conservative and High Estimates (Millions Usd)
Figure 103: Schematic of Ar Coating Utilizing Nanoporous Coating
Figure 104: Demo Solar Panels Coated with Nanocoatings
Figure 105: Revenues for Anti-Reflective Nanocoatings, 2019-2031, Adjusted for COVID-19 Related Demand, Conservative and High Estimates (Millions Usd)
Figure 106: 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 107: Stages of Self-Healing Mechanism
Figure 108: Self-Healing Mechanism in Vascular Self-Healing Systems
Figure 109: Comparison of Self-Healing Systems
Figure 110: Self-Healing Coating on Glass
Figure 111: Schematic of the Self-Healing Concept Using Microcapsules with a Healing Agent Inside
Figure 112: Revenues for Self-Healing Nanocoatings, 2019-2031, Adjusted for COVID-19 Related Demand, Conservative and High Estimates (Millions Usd)
Figure 113: The Global Market for Self-Healing Coatings and Materials to 2027, Millions Usd, by Market, Conservative Estimate
Figure 114: The Global Market for Self-Healing Coatings and Materials to 2027, Millions Usd, by Market, High Estimate
Figure 115 Nanocoatings Market by End-user Sector, 2010-2031, Usd
Figure 116: Nanocoatings in the Aerospace Industry, by Nanocoatings Type %,
Figure 117: Potential Addressable Market for Nanocoatings in Aerospace by
Figure 118: Revenues for Nanocoatings in the Aerospace Industry, 2010-2031, US
Figure 119: Nanocoatings in the Automotive Industry, by Coatings Type %
Figure 120: Potential Addressable Market for Nanocoatings in the Automotive Sector by
Figure 121: Revenues for Nanocoatings in the Automotive Industry, 2010-2031, US
Figure 122: Mechanism of Photocatalytic Nox Oxidation on Active Concrete Road
Figure 123: Jubilee Church in Rome, the Outside Coated with Nano Photocatalytic Tio2 Coatings
Figure 124: Fn® Photocatalytic Coating, Applied in the Project of Ecological Sound Barrier, in Prague
Figure 125 Smart Window Film Coatings Based on Indium Tin Oxide Nanocrystals
Figure 126: Nanocoatings in Construction, Architecture and Exterior Protection, by Coatings Type %,
Figure 127: Potential Addressable Market for Nanocoatings in the Construction, Architecture and Exterior Coatings Sector by
Figure 128: Revenues for Nanocoatings in Construction, Architecture and Exterior Protection, 2010-2031, US
Figure 129: Reflection of Light on Anti-Glare Coating for Display
Figure 130: Nanocoating Submerged in Water
Figure 131: Phone Coated in Waterblock Submerged in Water Tank
Figure 132: Self-Healing Patent Schematic
Figure 133: Self-Healing Glass Developed at the University of Tokyo
Figure 134: Royole Flexible Display
Figure 135: Potential Addressable Market for Nanocoatings in Electronics by
Figure 136: Revenues for Nanocoatings in Electronics, 2010-2031, US, Conservative and Optimistic Estimates
Figure 137: Nanocoatings in Household Care, Sanitary and Indoor Air Quality, by Coatings Type %,
Figure 138: Potential Addressable Market for Nanocoatings in Household Care, Sanitary and Indoor Air Filtration by
Figure 139: Revenues for Nanocoatings in Household Care, Sanitary and Indoor Air Quality, 2010-2031, US
Figure 140: Potential Addressable Market for Nanocoatings in the Marine Sector by
Figure 141: Revenues for Nanocoatings in the Marine Sector, 2010-2031, US
Figure 142: Anti-Bacertial Sol-Gel Nanoparticle Silver Coating
Figure 143: Nanocoatings in Medical and Healthcare, by Coatings Type %,
Figure 144: Potential Addressable Market for Nanocoatings in Medical & Healthcare by
Figure 145: Revenues for Nanocoatings in Medical and Healthcare, 2010-2031, US
Figure 146: Nanocoatings in Military and Defence, by Nanocoatings Type %,
Figure 147: Potential Addressable Market Nanocoatings in Military and Defence by
Figure 148: Revenues for Nanocoatings in Military and Defence, 2010-2031, US
Figure 149: Nanocomposite Oxygen Barrier Schematic
Figure 150: Oso Fresh Food Packaging Incorporating Antimicrobial Silver
Figure 151: Potential Addressable Market for Nanocoatings in Packaging by
Figure 152: Revenues for Nanocoatings in Packaging, 2010-2031, US
Figure 153: Omniphobic-Coated Fabric
Figure 154: Work Out Shirt Incorporating Ecg Sensors, Flexible Lights and Heating Elements
Figure 155: Nanocoatings in Textiles and Apparel, by Coatings Type %,
Figure 156: Potential Addressable Market for Nanocoatings in Textiles and Apparel by
Figure 157: Revenues for Nanocoatings in Textiles and Apparel, 2010-2031, US
Figure 158: Self-Cleaning Hydrophobic Coatings on Solar Panels
Figure 159: Znshine Graphene Series Solar Coatings
Figure 160: Nanocoating for Solar Panels
Figure 161: Nanocoatings in Renewable Energy, by Coatings Type
Figure 162: Potential Addressable Market for Nanocoatings in Renewable Energy by
Figure 163: Revenues for Nanocoatings in Energy, 2010-2031, US
Figure 164: Oil-Repellent Self-Healing Nanocoatings
Figure 165: Nanocoatings in Oil and Gas Exploration, by Coatings Type %,
Figure 166: Potential Addressable Market for Nanocoatings in Oil and Gas Exploration by
Figure 167: Revenues for Nanocoatings in Oil and Gas Exploration, 2010-2031, US
Figure 168: Revenues for Nanocoatings in Tools and Manufacturing, 2010-2031, US
Figure 169: Security Tag Developed by Nanotech Security
Figure 170: Revenues for Nanocoatings in Anti-Counterfeiting, 2010-2031, US
Figure 171. Lab Tests on Dsp Coatings
Figure 172: Self-Healing Mechanism of Smartcorr Coating
Figure 173. Proprietary Atmospheric Cvd Production
Figure 174. Grapheneca Anti-Bacterial and Anti-Viral Coating
Figure 175. Microlyte® Matrix Bandage for Surgical Wounds
Figure 176. Self-Cleaning Nanocoating Applied to Face Masks
Figure 177: Carbon Nanotube Paint Product
Figure 178. Hipco® Reactor
Figure 179. Nanoseptic Surfaces
Figure 180. Nascnanotechnology Personnel Shown Applying Medicoat to Airport Luggage Carts
Figure 181. Schematic of Modoper H Series Anti-Fog Agents
Figure 182. Test Performance After 6 Weeks Act Ii According to Scania Std4445
Figure 183: 2 Wt.% Cnf Suspension
Figure 184. Binfi-S Dry Powder
Figure 185. Binfi-S Dry Powder and Propylene (Pp) Complex Pellet
Figure 186: Silk Nanofiber (Right) and Cocoon of Raw Material
Figure 187. Applications of Titanystar


Note: Product cover images may vary from those shown

A selection of companies mentioned in this report includes:

  • 3M
  • Abrisa Technologies
  • Accucoat, Inc.
  • Acreo Engineering
  • Aculon, Inc.
  • Adaptive Surface Technologies
  • Advanced Materials-JTJ S.R.O
  • Advanced Nanotech Lab
  • Advanced Silicon Group
  • Advanced Soft Materials, Inc.
  • Advenira Enterprises, Inc.
  • Aereus Technologies
  • Agienic Antimicrobials
  • AKALI Technology
  • AkzoNobel
  • Alchemy
  • ALD Nanosolutions, Inc.
  • Alexium, Inc.
  • Alfred Clouth Lackfabrik GmbH & Co. KG
  • Allied Bioscience
  • AM Technology Ltd.
  • Americhem
  • AMProtecTion, LLC
  • Analytical Services & Materials, Inc.
  • Ancatt
  • Applied Graphene Materials
  • Applied Nano Surfaces
  • Applied Nanocoatings, Inc.
  • Applied Nanotechnologies S.L
  • Applied Sciences, Inc.
  • Applied Thin Films, Inc.
  • Ar Brown
  • ARA-Coatings
  • Artekya
  • Asahi Glass Co. Ltd.
  • Attonuclei
  • Autonomic Materials, Inc.
  • Avaluxe International GmbH
  • Avanzare Innovacion Tecnologica S.L
  • Bactiguard AB
  • BASF Corporation
  • Battelle
  • Beneq Oy
  • BigSky Technologies LLC
  • Bio-Fence
  • Bio-Gate AG
  • Biocote Ltd.
  • Bioni CS GmbH
  • Bionic Technology Holding BV
  • Boral Limited
  • Buhler Partec
  • BYK-Chemie GmbH
  • Cambridge Nanotherm Limited
  • Cambrios Technologies Corporation
  • Caparol
  • Carbodeon Ltd. Oy
  • Cardinal Glass Industries
  • Ceko Co. Ltd.
  • Cellucomp Ltd.
  • Cellutech AB
  • CeloNova BioSciences, Inc.
  • CeNano GmbH & Co. KG
  • Cetelon Nanotechhnik GmbH
  • CG2 Nanocoatings, Inc.
  • Cidetec
  • Clarcor Industrial Air
  • Cleancorp Nanocoatings
  • Clearbridge Technologies Pte. Ltd.
  • Clou
  • CMR Coatings GmbH
  • CNM Technologies GmbH
  • Coating Suisse GmbH
  • Corning, Incorporated
  • Cotec GmbH
  • Coval Molecular Coatings
  • Covalon Technologies Ltd.
  • Covestro AG
  • Cristal/Tronox
  • Crossroads Coatings
  • CSD Nano, Inc.
  • CTECHnano
  • Cytonix LLC
  • Dab FLow Nanotechnology
  • Daicel FineChem Limited
  • Daikin Industries, Ltd.
  • Decorative Products GmbH
  • DFE Chemie GmbH
  • Diamon-Fusion International, Inc.
  • Diarc-Technology Oy
  • Diatomix, Inc.
  • Dortrend
  • Dow Corning
  • DrivePur
  • Dropwise Technologies Corporation
  • Dry Surface Technologies LLC
  • DryWired
  • DSP Co. Ltd.
  • Dupont Teijin Films
  • Duralar Technologies
  • Duraseal Coatings
  • Ecology Coatings LLC
  • Eeonyx Corporation
  • Eikos, Inc.
  • Elcora Advanced Materials
  • Energenics
  • Engineered Nanoproducts Germany AG
  • Enki Technology
  • ENVIRAL Oberflächenveredelung GmbH
  • Enviro Specialty Chemicals (ESC)
  • EnvisionSQ
  • EonCoat, LLC
  • Eoxolit
  • Eurama Corporation
  • Europlasma NV
  • Evonik Hanse
  • F Group Nano LLC
  • Few Chemicals GmbH
  • Flora Coatings LLC
  • FN Nano, Inc.
  • ForgeNano
  • Formacoat
  • Freshlight SOlutions
  • Fumin Co. Ltd.
  • Future Nanocoatings
  • FutureCarbon GmbH
  • Gaematech
  • GBneuhaus GmbH
  • GE Global Research
  • General Paints
  • GKN plc
  • Global Graphene Group
  • Grafoid, Inc.
  • Graphematech AB
  • Graphene Innovation & Technologies (GIT)
  • GrapheneCA
  • Green Earth Nano Science, Inc.
  • Green Millenium, Inc.
  • Grillo Zinkoxid GmbH
  • Grox Industries
  • Grupo Repol
  • GSI Creos Corporation
  • GVD Corporation
  • GXC Coatings
  • HakusuiTech Co. Ltd.
  • Hardide Coatings
  • HeiQ Materials AG
  • Hemoteq GmbH
  • Henkel AG & Co. KGaA
  • Hexigone Inhibitors Ltd.
  • Hexis S.A
  • Hiab Products
  • Hitachi Chemical
  • Honeywell International, Inc.
  • Hoowaki LLC
  • Hy-Power Nano, Inc.
  • Hygratek, LLC
  • HyperSolar, Inc.
  • HzO, Inc.
  • iFyber, LLC
  • Imagine Intelligent Materials
  • Imbed Biosciences, Inc.
  • Inframat Corporation
  • Inhibit Coatings
  • InMat, Inc.
  • Inno-X
  • Innovative Surface Technologies, Inc (ISurTech)
  • Instrumental Polymer Technologies LLC
  • Integran Technologies, Inc.
  • Integrated Surface Technologies, Inc.
  • Integricote
  • Interlotus Nanotechnologie GmbH
  • Intumescents Associates Group
  • Ionics Surface Technologies
  • Ishihara Sangyo Kaisha, Ltd.
  • ISTN, Inc.
  • Italcementi Group
  • Izovac Ltd.
  • JNC Corporation
  • Joma International AS
  • Jotun Protective Coatings
  • Kaneka Corporation
  • Kastus Technologies Ltd.
  • Kon Corporation
  • Kriya Materials B.V
  • Kusumoto Chemicals
  • Leibniz Institute for New Materials (INM)
  • Life Air Iaq Ltd.
  • Lintec of America, Inc.
  • Lipocoat BV
  • Liquiglide, Inc.
  • Liquipel, LLC
  • Lofec Nanocoatings
  • Lotus Applied Technology
  • Lotus Leaf Coatings, Inc.
  • Luna Innovtions
  • MACOMA Environmental Technologies, LLC
  • Maeda-KougyouCo, Ltd.
  • Marusyo Sangyo Co. Ltd.
  • Master Dynamic Limited
  • Mavro
  • Maxon Technologies
  • MDS Coating Technologies Corporation
  • Melodea Ltd.
  • Merck Performance Materials
  • Mesocoat, Inc.
  • Metal Estalki
  • Metashield
  • Mica NanoTech
  • Millidyne Oy
  • MMT Textiles Limited
  • Modumetal, Inc.
  • Molecular Rebar
  • Muschert
  • Muse Nanobots
  • MVX Protex
  • n-tec GmbH
  • N2 Biomedical LLC
  • Nanjing High Technology Nano Material Co. Ltd. (HTNano)
  • Nano Came Co. Ltd.
  • Nano Surface Solutions
  • Nano-Care Deutschland AG
  • Nano-Tex, Inc.
  • Nano-X GmbH
  • Nano-Z Coating Ltd.
  • Nanobiomatters S.I
  • Nanoclean Global Private Limited
  • NanoCover A/S
  • Nanocyl
  • Nanofilm, Ltd.
  • Nanogate AG
  • Nanohmics
  • Nanohydrophobics, Inc.
  • Nanokote Pty Ltd.
  • NanoLotus Scandanavia Aps
  • Nanomate Technology
  • Nanomech
  • Nanomedic Technologies Ltd.
  • Nanomembrane
  • NanoPack, Inc.
  • NanoPhos SA
  • NanoPhyll, Inc.
  • Nanopool GmbH
  • NanoPure Technologies
  • nanoSAAR AG
  • Nanosol AG
  • Nanosonic, Inc.
  • Nanotech Security Corporation
  • NanoTouch Materials, LLC
  • Nanova Care Coat
  • Nanovere Technologies, LLC
  • Nanoveu Pte. Ltd.
  • Nanovis Inc.
  • Nanowave Inc.
  • Nanto Protective Coating
  • NascNano Technology Co. Ltd.
  • NBD Nanotechnologies
  • NEI Corporation
  • Nelumbo
  • Neoxal
  • Neverwet LLC
  • NGimat
  • NIL Technology ApS
  • NILima Nanotechnologies
  • Nippon Paper Industries
  • Nippon Sheet Glass Co. Ltd.
  • Nissan Chemical Industries Ltd.
  • NITROPEP
  • Nobio Ltd.
  • NOF Corporation
  • Norcop
  • NTC Nanotech Coatings GmbH
  • NTT Advanced Technology Corporation
  • Oceanit
  • Opticote Inc.
  • Optics Balzers Ag
  • Optitune Oy
  • Opus Materials Technology
  • Organiclick AB
  • Oxford Advanced Surfaces
  • Oxford Nanosystems
  • Oxlutia
  • P2i Ltd.
  • Paperlogic
  • Perpetual Technologies, Inc.
  • Philippi-Hagenbuch, Inc.
  • Picosun Oy
  • Pioneer Medical Devices GmbH
  • Pixelligent Technologies
  • Polymerplus, LLC
  • Powdermet, Inc.
  • PPG Industries, Inc.
  • Promethean Particles Ltd.
  • Promimic AB
  • Pureti, Inc.
  • qLayers
  • Quantiam Technologies, Inc.
  • QuatCare LLC
  • Rads Global Business BV
  • RAS AG
  • RBNano
  • Reactive Surfaces, LLP
  • Resodyn Corporation
  • Resysten
  • Rochling Engineering Plastics
  • Royal DSM N.V
  • Rust-Oleum
  • Saint-Gobain Glass
  • Sandvik Materials Technology
  • Schaeffler Technologies AG & Co. KG
  • Schott AG
  • Sciessent LLC
  • Scutum Nano Solutions GmbH
  • sdst
  • Seashell Technology LLC-Hydrobead
  • Seiko PMC /KJ Chemicals
  • Sensor Coating Systems (SCS)
  • Sharklet Technologies, Inc.
  • Shin-Etsu Silicones
  • SHM
  • Showa Denko K.K
  • Sicora Technologies Private Limited
  • SiO2 Nanotech, LLC
  • Sketch Co. Ltd.
  • Slips Technology
  • Sobinco
  • Sol-Gel Materials and Applications (SGMA)
  • SolCold
  • Sono-Tek Corporation
  • Sonovia
  • Souma Co. Ltd.
  • Starfire Systems, Inc.
  • Starlight Industry Co. Ltd.
  • Sub-One Technology, Inc.
  • Sugino Machine Limited
  • Sumitomo Electric Hard-Metal Ltd.
  • Suncoat GmbH
  • Sunex, Inc.
  • SupraPolix BV
  • Surfactis Technologies SAS
  • Surfatek LLC
  • Surfix BV
  • Surwon Technology
  • SuSoS AG
  • Suzhou Super Nano-Textile Teco Co
  • Swift Coat, Inc.
  • Taiyo Kogyo Corporation
  • Takenake Seisakusho Co. Ltd.
  • Talga Resources
  • Tata Steel
  • TEC10-9
  • Tecnalia
  • Tesla Nanocoatings
  • The NanoSteel Company, Inc.
  • The Sherwin Williams Company
  • Thomas Swan
  • TitanPE Technologies, Inc.
  • TNO
  • Topasol LLC
  • TopChim NV
  • TopsenTechnology
  • Toray Advanced Film Co. Ltd.
  • Toshiba Materials Co. Ltd.
  • Toto
  • Toyokosho Co. Ltd.
  • Toyota Tsusho Corporation
  • Ube Exsymo Co. Ltd.
  • Ultratech International, Inc.
  • USA Nanocoat
  • Valentis Nanotech
  • Vestagen Protective Technologies, Inc.
  • Viaex Technologies, Inc.
  • Viriflex
  • Wacker Chemie AG
  • Wattglass, LLC
  • X-Therma, Inc.
  • Xtalic Corporation
  • Yield Co. Ltd.
  • Zixilai Environoment
  • Znshine Solar
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