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The Global Market for Smart Coatings

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    Report

  • 332 Pages
  • September 2018
  • Region: Global
  • Future Markets, Inc
  • ID: 4622218

Smart coatings are coating systems that are capable of responding dynamically to external changes in their environment. These types of coatings elicit a sensory response to environmental stimuli such as changes in temperature or current and respond accordingly.

Although smart coatings are not new, the growing development of nanotechnology and advanced materials has opened new avenues for multi-functional coatings that sense and react to stress, pressure, corrosion, radiation and biological stimuli. The incorporation of multifunctional, smart nanofillers to polymer matrix results in a range of unique properties.

Examples of smart coatings include:

  • Stimuli Responsive
  • Conductive
  • Self-Healing
  • Super Hydrophobic Systems

This report assesses the latest technical developments in the smart coatings market including:

Smart coating types analysis

The global smart coating market is segmented into self-healing coatings, electrochromic coatings, thermochromic coatings, hydrophobic coatings, superhydrophobic coatings, oleophobic and omniphobic coatings and piezoelectric coatings.

Smart coating producer competitive analysis

The key players in the global smart coating market are profiled including products and target markets.

Smart coating end user market analysis

The global smart coating end user application market is segmented into aerospace, automotive, construction, consumer electronics, marine, medical & healthcare, military & defence, packaging, textiles and apparel, energy, oil & gas.

This report will answer the following questions:

  • How large is the current market for smart coatings?
  • What is the status of these technology areas?
  • What is driving deployment of these coatings?
  • What are the potential market opportunities?
  • Who are developing these coatings and in what market?

Report contents include:

  • Stage of commercialization for smart coatings, from basic research to market entry.
  • Market drivers, trends and challenges, by end user markets.
  • In-depth market assessment of opportunities for smart coatings including potential revenues, growth rates etc.
  • In-depth company profiles, including products, capacities, and commercial activities.
  • Detailed forecasts for key growth areas, opportunities and user demand.
  • Companies profiled.



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Table of Contents

1 EXECUTIVE SUMMARY

1.1 Need for high performance, multi-functional smart coatings
1.2 Market drivers and trends
1.3 Market size and opportunity for smart coatings
    1.3.1 Total market revenues, 20152025
    1.3.2 Smart coatings revenues by markets, 2015 - 2025
    1.3.3 Market for smart coatings, by coatings type, 2016-2026
1.4 Market and technicalchallenges

2 TYPES OF SMART COATINGS

2.1 What are smart coatings?
    2.1.1 Properties
    2.1.2 Types of smart coatings
    2.1.3 Main production and synthesis methods

3 ANTI-CORROSION SMART COATINGS

3.1 Properties
3.2 Applications

4 ANTI-ICING SMART COATINGS

4.1 Properties
4.2 Applications

5 ANTI-FOULING AND EASY-TO-CLEAN SMART COATINGS

5.1 Properties
5.2 Applications

6 ANTI-MICROBIAL SMART COATINGS

6.1 Properties
6.2 Applications

7 ELECTROCHROMIC COATINGS

7.1 Properties
7.2 Applications

8 THERMOCHROMIC COATINGS

8.1 Properties
8.2 Applications

9 HYDROPHOBIC COATINGS

9.1 Hydrophilic coatings
9.2 Selfcleaning
    9.2.1 Properties
9.3 Applications

10 SUPERHYDROPHOBIC COATINGS

10.1 Properties
10.2 Applications

11 OLEOPHOBIC AND OMNIPHOBIC COATINGS

11.1 Liquid-infused coatings
11.2 Covalent bonding
11.3 Step-growth graft polymerization
11.4 Applications

12 SELF-HEALING COATINGS

12.1 POLYURETHANE CLEAR COATS
    12.1.1 Properties
    12.1.2 Markets
12.2 MICRO/NANOCAPSULES
    12.2.1 Properties
    12.2.2 Markets
12.3 MICROVASCULAR NETWORKS
    12.3.1 Properties
    12.3.2 Markets
12.4 REVERSIBLE POLYMERS
    12.4.1 Properties
    12.4.2 Markets
12.5 CLICK POLYMERIZATION
    12.5.1 Properties
    12.5.2 Markets
12.6 CARBON NANOTUBES
    12.6.1 Properties
12.7 GRAPHENE AND OTHER 2D MATERIALS
    12.7.1 Properties
12.8 POLYAMPHOLYTE HYDROGELS
    12.8.1 Properties
12.9 SHAPE MEMORY
    12.9.1 Properties

13 POLY(IONIC LIQUID) COATINGS

13.1 Properties
13.2 Applications

14 METAL–ORGANIC FRAMEWORK (MOF) COATINGS

14.1 Properties
14.2 Applications

15 MARKET SEGMENT ANALYSIS, BY END USER MARKET

15.1 SMART COATINGS IN THE AEROSPACE INDUSTRY
    15.1.1 Market drivers and trends
    15.1.2 Applications
        15.1.2.1 Smart thermal protection
        15.1.2.2 Smart icing prevention coatings
        15.1.2.3 Smart conductive and anti-static coatings
        15.1.2.4 Smart corrosion-resistant coatings
        15.1.2.5 Smart windows
        15.1.2.6 Self-healing coatings
    15.1.3 Smart coatings opportunity
    15.1.4 Companies
15.2 SMART COATINGS IN THE AUTOMOTIVE INDUSTRY
    15.2.1 Market drivers and trends
    15.2.2 Applications
        15.2.2.1 Smart windows and mirrors
        15.2.2.2 Self-healing coatings
    15.2.3 Smart coatings opportunity
    15.2.4 Companies
15.3 SMART COATINGS IN THE CONSTRUCTION INDUSTRY
    15.3.1 Market drivers and trends
    15.3.2 Applications
        15.3.2.1 Smart windows
        15.3.2.2 Antigraffiti
    15.3.3 Smart coatings opportunity
    15.3.4 Companies
15.4 SMART COATINGS IN THE CONSUMER ELECTRONICS INDUSTRY
    15.4.1 Market drivers and trends
    15.4.2 Applications
        15.4.2.1 Waterproof coatings
        15.4.2.2 Conductive films
        15.4.2.3 Self-healing coatings
    15.4.3 Smart coatings opportunity
    15.4.4 Companies
15.5 SMART COATINGS IN THE MARINE INDUSTRY
    15.5.1 Market drivers and trends
    15.5.2 Applications
        15.5.2.1 Corrosion detection
        15.5.2.2 Selfhealing
    15.5.3 Smart coatings opportunity
    15.5.4 Companies
15.6 SMART COATINGS IN THE MEDICAL & HEALTHCARE INDUSTRY
    15.6.1 Market drivers and trends
    15.6.2 Applications
        15.6.2.1 Flexible/stretchable health monitors
        15.6.2.2 Patch type skin sensors
    15.6.3 Smart coatings opportunity
    15.6.4 Companies
15.7 SMART COATINGS IN THE MILITARY AND DEFENCE INDUSTRY
    15.7.1 Market drivers and trends
    15.7.2 Applications
        15.7.2.1 Textiles
        15.7.2.2 Military equipment
        15.7.2.3 Chemical and biological protection
        15.7.2.4 Decontamination
        15.7.2.5 Thermal barrier
        15.7.2.6 EMI/ESD Shielding
        15.7.2.7 Antireflection
        15.7.2.8 Self-healing vehicles
    15.7.3 Smart coatings opportunity
    15.7.4 Companies
15.8 SMART COATINGS IN THE TEXTILES AND APPAREL INDUSTRY
    15.8.1 Market drivers and trends
    15.8.2 Applications
    15.8.3 Smart coatings opportunity
    15.8.4 Companies
15.9 SMART COATINGS IN THE ENERGY INDUSTRY
    15.9.1 Market drivers and trends
    15.9.2 Applications
        15.9.2.1 Wind energy
        15.9.2.2 Solar
        15.9.2.3 Gas turbine coatings
    15.9.3 Smart coatings opportunity
    15.9.4 Companies
15.10 SMART COATINGS IN THE OIL AND GAS INDUSTRY
    15.10.1 Market drivers and trends
    15.10.2 Applications
        15.10.2.1 Self-healing metals
    15.10.3 Smart coatings opportunity
    15.10.4 Companies

16 REFERENCES

TABLES

Table 1: Properties of smart coatings
Table 2: Markets for smart coatings
Table 3: Estimated revenues for smart coatings, 2015-2025, by markets, USD. Conservative estimate
Table 4: Estimated revenues for smart coatings, 2015-2025, by markets, USD. High estimate
Table 5: Market for smart coatings, by coatings type, 2016-2026, USD, conservative estimate
Table 6: Disadvantages of commonly utilized superhydrophobic coating methods
Table 7: Technology for synthesizing nanocoatings agents
Table 8: Film coatings techniques
Table 9: Anti-corrosion smart coatings-Advanced materials used, principles, properties and applications
Table 10: Anti-corrosion smart coatings markets and applications
Table 11: Anti-icing smart coatings-Advanced materials used, principles, properties, applications
Table 12: Anti-icing smart coatings-Markets and applications
Table 13: Anti-fouling and easy-to-clean smart coatings-Advanced materials used, principles, properties and applications
Table 14: Anti-fouling and easy-to-clean smart coatings markets and applications
Table 15: Anti-microbial smart coatings-Advanced materials used, principles, properties and applications
Table 16: Anti-microbial nanocoatings markets and applications
Table 17: Electrochromic smart coatings markets and applications
Table 18: Thermochromic smart coatings markets and applications
Table 19: Contact angles of hydrophilic, super hydrophilic, hydrophobic and superhydrophobic surfaces
Table 20: Superhydrophobic coatings-Markets and applications
Table 21: Applications of oleophobic & omniphobic coatings
Table 22: Companies producing polyurethane clear coat products for selfhealing
Table 23: Properties of graphene
Table 24: Applications of poly (ionic liquid) coatings
Table 25: Applications of MOF coatings
Table 26: Market drivers and trends for smart coatings in the aerospace industry
Table 27: Types of smart coatings utilized in aerospace and application
Table 28: Market size for smart coatings in aerospace
Table 29: Market drivers and trends for smart coatings in the automotive industry
Table 30: Smart coatings applied in the automotive industry
Table 31: Technologies for smart windows and mirrors in automobiles
Table 32: Market size for smart coatings in automotive
Table 33: Market drivers and trends for smart coatings in the construction industry
Table 34:Smart coatings applied in the construction industry
Table 35: Technologies for smart windows in buildings
Table 36: Market size for smart coatings in the construction  industry
Table 37: Cross-section of Electro Kinetic Film
Table 38: Market drivers and trends for smart coatings in the consumer electronics industry
Table 39: Smart coatings applied in the consumer electronics industry
Table 40: Market size for smart coatings in electronics
Table 41: Market drivers and trends for smart coatings in the marine industry.
Table 42: Smart coatings applied in the marine industry
Table 43: Market size for smart coatings in the marine industry
Table 44: Market drivers and trends for smart coatings in the medical and healthcare industry
Table 45: Smart coatings applied in the medical industry-type of coating, nanomaterials utilized, benefits and applications
Table 46: Applications in flexible and stretchable health monitors, by smart materials type and benefits thereof.
Table 47: Market size for smart coatings in the medical and healthcare industry
Table 48: Market drivers and trends for smart coatings in the military and defence industry
Table 49: Market size for smart coatings in the military and defence industry
Table 50: Market drivers and trends for smart coatings in the textiles and apparel industry
Table 51: Smart coatings applied in the textiles industry-type of coating, materials utilized, benefits and applications
Table 52: Smart clothing and apparel and stage of development
Table 53: Market size for smart coatings in the textiles and apparel industry
Table 54: Market drivers and trends for smart coatings in the energy industry
Table 55: Market size for smart coatings in the energy industry
Table 56: Market drivers and trends for smart coatings in the oil and gas industry
Table 57: Smart coatings in the oil and gas industry
Table 58: Market size for smart coatings in the oil and gas industry

FIGURES

Figure 1: Micro/nano capsules incorporated within a coating matrix
Figure 2: Schematic of the blistering and delamination mechanism
Figure 3: Total market revenues for smart coatings, 2015-2025, USD. Conservative and highestimates
Figure 4: Estimated revenues for smart coatings, 2015-2025, by markets, USD. Conservative estimate
Figure 5: Estimated revenues for smart coatings, 2015-2025, by markets, USD. Highestimate
Figure 6: Markets for smart coatings 2015,%
Figure 7: Markets for smart coatings 2025,%
Figure 8: Techniques for constructing superhydrophobic coatings on substrates
Figure 9: Electrospray deposition
Figure 10: CVD technique
Figure 11: SEM images of different layers of TiO2 nanoparticles in steel surface
Figure 12: Nanovate CoP coating
Figure 13:  2000-hour salt fog results for Teslan nanocoatings
Figure 14: AnCatt proprietary polyaniline nanodispersion and coating structure
Figure 15: Schematic of anti-corrosion via superhydrophobic surface
Figure 16: Carbon nanotube based anti-icing/de-icing device
Figure 17: Nanocoated surface in comparison to existing surfaces
Figure 18: CNT anti-icing nanocoating
Figure 19: NANOMYTE® SuperAi, a Durable Anti-ice Coating
Figure 20: Electrochromic smart glass schematic
Figure 21: Alteos Interactive Window Systems
Figure 22: Examples of electrochromic smart windows each in fully coloured (left) and bleached state(right)
Figure 23: Thermochromic smart windows schematic
Figure 24: Vertical insulated glass unit for a Suntuitive® thermochromic window
Figure 25: (a) Water drops on a lotus leaf
Figure 26: 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 27: Contact angle on superhydrophobic coated surface
Figure 28: Self-cleaning nanocellulose dishware
Figure 29: SLIPS repellent coatings
Figure 30: Omniphobic coatings
Figure 31: Schematic of the self-healing concept using microcapsules with a healing agent inside
Figure 32: Schematic of single-walled carbon nanotube
Figure 33: Potential addressable market for smart coatings in aerospace
Figure 34: Revenues for smart coatings in aerospace 2015-2025, high and conservative estimates, USD
Figure 35: Nissan Scratch Shield
Figure 36: Potential addressable market for smart coatings in the automotive sector
Figure 37: Revenues for smart coatings in automotive 2015-2025, high and conservative estimates, USD
Figure 38: SPD smart windows schematic
Figure 39: Nanocrystal smart glass that can switch between fully transparent, heat-blocking, and light-and-heat-blocking modes
Figure 40: Potential addressable market for smart coatings in the construction industry
Figure 41: Revenues for smart coatings in construction and exterior protection 2015-2025, high and conservative estimates, USD
Figure 42: CoverLight by Chromogenics
Figure 43: Nanocoating submerged in water
Figure 44: Phone coated in WaterBlock submerged in water tank
Figure 45: Self-healing dielectric material for wearable electronics
Figure 46: Self-healing patent schematic
Figure 47: Self-healing coating on glass
Figure 48: Self-healing glass developed at the University of Tokyo
Figure 49: Potential addressable market for smart coatings in electronics
Figure 50: Revenues for smart coatings in consumer electronics 2015-2025, high and conservative estimates, USD
Figure 51: Schematic of the nanocapsule-based self-healing coatings
Figure 52: Potential addressable market for smart coatings in the marine industry
Figure 53: Revenues for smart coatings in the marine industry 2015-2025, high and conservative estimates, USD
Figure 54: Smart e-skin system comprising health-monitoring sensors, displays, and ultraflexible PLEDs
Figure 55: Graphene medical patch
Figure 56: Flexible, lightweight temperature sensor
Figure 57: Potential addressable market for smart coatings in medical & healthcare
Figure 58: Revenues for smart coatings in the medical and healthcare industry 2015-2025, high and conservative estimates, USD
Figure 59: Potential addressable market for smart coatings in military and defence
Figure 60: Revenues for smart coatings in the military industry 2015-2025, high and conservative estimates, USD
Figure 61: Omniphobic-coated fabric
Figure 62: Potential addressable market for smart coatings in textiles and apparel
Figure 63: Revenues for smart coatings in the textiles and apparel industry 2015-2025, high and conservative estimates, USD
Figure 64: Schematic of self-healing solar cell
Figure 65: Self-Cleaning Hydrophobic Coatings on solar panels
Figure 66: Potential addressable market for smart coatings in energy
Figure 67: Revenues for smart coatings in the energy industry (inc. oil and gas) 2015-2025, high and conservative estimates, USD
Figure 68: Oil-Repellent self-healing coatings
Figure 69: Potential addressable market for smart coatings oil and gas exploration

Companies Mentioned (Partial List)

A selection of companies mentioned in this report includes, but is not limited to:

  • Autonomic Materials
  • Covestro
  • SLIPS Technologies
  • Suprapolix BV
  • Battelle
  • Oceanit
  • Tesla Nanocoatings
  • Nissan

 

 

Methodology

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