The Global Market for Nanostructured Coatings, Films and Surfaces (Nanocoatings) 2021

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July 2021 | 658 pages, 164 tables, 180 figures | Table of contents

The Global Market for Nanostructured Coatings, Films and Surfaces (Nanocoatings) 2021 provides a 660 page analysis of market size, applications, growth prospects, impact of COVID-19, market challenges, drivers and opportunities. The use of advanced nanocoatings to mitigate viruses and environmental damage has emerged.  Applied to high-transmission surfaces the use of nanocoatings offers continuous disinfection. This is one example of the many functionalities nanocoatings offer to a wide range of products and processes. 

Types of nanocoatings covered include:

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

 

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-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, 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 nanostructured coatings, surfaces and films. 
  • Global revenues, historical and forecast to 2031, by type, end user market and regional markets. 
  • 382 company profiles. Companies profiled include Bio-Gate, Tesla Nanocoatings, HZO, EnvisionSQ, P2i, Swift Coat, HeiQ Materials,  OrganoClick,  Green Earth Nano Science, Reactive Surfaces, Kastus, Advanced Materials JTJ, etc. and many more. Profiles include company description, products, target markets and contact details. 

 

1              EXECUTIVE SUMMARY   44

  • 1.1          Why nanocoatings?        44
  • 1.2          Advantages over traditional coatings       44
  • 1.3          Improvements and disruption in coatings markets            46
  • 1.4          Anti-viral nanoparticles and nanocoatings             48
    • 1.4.1.1   Reusable Personal Protective Equipment (PPE)   50
    • 1.4.1.2   Wipe on coatings             50
    • 1.4.1.3   Facemask coatings           50
    • 1.4.1.4   Long-term mitigation of surface contamination with nanocoatings             51
  • 1.5          End user market for nanocoatings            52
  • 1.6          The nanocoatings market 2020-2021        55
  • 1.7          Global market size, historical and estimated to 2031         55
    • 1.7.1      Global revenues for nanocoatings 2010-2031       55
    • 1.7.2      Regional demand for nanocoatings          56
  • 1.8          Market challenges           57

 

2              OVERVIEW OF NANOCOATINGS 59

  • 2.1          Properties           59
  • 2.2          Benefits of using nanocoatings   60
    • 2.2.1      Types of nanocoatings   61
  • 2.3          Production and synthesis methods          62
    • 2.3.1      Film coatings techniques analysis              63
    • 2.3.2      Superhydrophobic coatings on substrates             65
    • 2.3.3      Electrospray and electrospinning              65
    • 2.3.4      Chemical and electrochemical deposition              66
      • 2.3.4.1   Chemical vapor deposition (CVD)              66
      • 2.3.4.2   Physical vapor deposition (PVD) 67
      • 2.3.4.3   Atomic layer deposition (ALD)    68
      • 2.3.4.4   Aerosol coating 69
      • 2.3.4.5   Layer-by-layer Self-assembly (LBL)            69
      • 2.3.4.6   Sol-gel process  70
      • 2.3.4.7   Etching 72
  • 2.4          Hydrophobic coatings and surfaces          73
    • 2.4.1      Hydrophilic coatings       73
    • 2.4.2      Hydrophobic coatings     73
      • 2.4.2.1   Properties           74
      • 2.4.2.2   Application in facemasks              74
  • 2.5          Superhydrophobic coatings and surfaces               75
    • 2.5.1      Properties           75
      • 2.5.1.1   Antibacterial use              76
    • 2.5.2      Durability issues               76
    • 2.5.3      Nanocellulose   77
  • 2.6          Oleophobic and omniphobic coatings and surfaces           77
    • 2.6.1      SLIPS     78
    • 2.6.2      Covalent bonding             78
    • 2.6.3      Step-growth graft polymerization             78
    • 2.6.4      Applications       79
  • 2.7          Nanomaterials used in nanocoatings       81
    • 2.7.1      Graphene           83
      • 2.7.1.1   Properties and coatings applications        83
    • 2.7.2      Carbon nanotubes (MWCNT and SWCNT)              90
      • 2.7.2.1   Properties and applications          90
    • 2.7.3      Fullerenes           95
      • 2.7.3.1   Properties           95
      • 2.7.3.2   Antimicrobial activity      95
    • 2.7.4      Silicon dioxide/silica nanoparticles (Nano-SiO2)  96
      • 2.7.4.1   Properties and applications          97
    • 2.7.5      Nanosilver          99
      • 2.7.5.1   Properties and applications          99
      • 2.7.5.2   Silver nanocoatings         100
      • 2.7.5.3   Antimicrobial silver paints            101
    • 2.7.6      Titanium dioxide nanoparticles (nano-TiO2)         103
      • 2.7.6.1   Properties and applications          103
    • 2.7.7      Aluminium oxide nanoparticles (Al2O3-NPs)        111
      • 2.7.7.1   Properties and applications          111
    • 2.7.8      Zinc oxide nanoparticles (ZnO-NPs)          112
      • 2.7.8.1   Properties and applications          112
    • 2.7.9      Dendrimers        116
      • 2.7.9.1   Properties and applications          116
    • 2.7.10    Nanodiamonds 117
      • 2.7.10.1                Properties and applications          117
    • 2.7.11    Nanocellulose (Cellulose nanofibers, cellulose nanocrystals and bacterial cellulose)            121
      • 2.7.11.1                Properties and applications          121
    • 2.7.12    Chitosan nanoparticles  129
      • 2.7.12.1                Properties           129
      • 2.7.12.2                Wound dressings             130
      • 2.7.12.3                Packaging coatings and films       131
      • 2.7.12.4                Food storage      131
    • 2.7.13    Copper nanoparticles     131
      • 2.7.13.1                Properties           131
      • 2.7.13.2                Application in antimicrobial nanocoatings             131

 

3              MARKET ANALYSIS BY NANOCOATINGS TYPE       132

  • 3.1          ANTI-FINGERPRINT NANOCOATINGS       132
    • 3.1.1      Market overview             132
    • 3.1.2      Market assessment        134
    • 3.1.3      Market drivers and trends            134
    • 3.1.4      Applications       136
      • 3.1.4.1   Touchscreens    136
      • 3.1.4.2   Spray-on anti-fingerprint coating               137
    • 3.1.5      Global market size           138
    • 3.1.6      Product developers        139
  • 3.2          ANTI-MICROBIAL AND ANTI-VIRAL NANOCOATINGS         143
    • 3.2.1      Mode of action  143
    • 3.2.2      Anti-viral coatings and surfaces 144
    • 3.2.3      Market overview             146
    • 3.2.4      Market assessment        148
    • 3.2.5      Market drivers and trends            148
    • 3.2.6      Applications       151
    • 3.2.7      Global market size           153
    • 3.2.8      Product developers        154
  • 3.3          ANTI-CORROSION NANOCOATINGS         157
    • 3.3.1      Market overview             157
    • 3.3.2      Market assessment        159
    • 3.3.3      Market drivers and trends            159
    • 3.3.4      Applications       160
      • 3.3.4.1   Smart self-healing coatings          162
      • 3.3.4.2   Superhydrophobic coatings         162
      • 3.3.4.3   Graphene           163
    • 3.3.5      Global market size           164
    • 3.3.6      Product developers        166
  • 3.4          ABRASION & WEAR-RESISTANT NANOCOATINGS 169
    • 3.4.1      Market overview             169
    • 3.4.2      Market assessment        170
    • 3.4.3      Market drivers and trends            171
    • 3.4.4      Applications       172
    • 3.4.5      Global market size           172
    • 3.4.6      Product developers        174
  • 3.5          BARRIER NANOCOATINGS            176
    • 3.5.1      Market assessment        176
    • 3.5.2      Market drivers and trends            176
    • 3.5.3      Applications       177
      • 3.5.3.1   Food and Beverage Packaging    177
      • 3.5.3.2   Moisture protection       177
      • 3.5.3.3   Graphene           178
    • 3.5.4      Global market size           178
    • 3.5.5      Product developers        180
  • 3.6          ANTI-FOULING AND EASY-TO-CLEAN NANOCOATINGS     182
    • 3.6.1      Market overview             182
    • 3.6.2      Market assessment        183
    • 3.6.3      Market drivers and trends            183
    • 3.6.4      Applications       184
      • 3.6.4.1   Hydrophobic and olephobic coatings       184
      • 3.6.4.2   Anti-graffiti         185
    • 3.6.5      Global market size           185
    • 3.6.6      Product developers        187
  • 3.7          SELF-CLEANING NANOCOATINGS              190
    • 3.7.1      Market overview             190
    • 3.7.2      Market assessment        191
    • 3.7.3      Market drivers and trends            192
    • 3.7.4      Applications       192
    • 3.7.5      Global market size           193
    • 3.7.6      Product developers        195
  • 3.8          PHOTOCATALYTIC NANOCOATINGS         197
    • 3.8.1      Market overview             197
    • 3.8.2      Market assessment        198
    • 3.8.3      Market drivers and trends            198
    • 3.8.4      Applications       199
      • 3.8.4.1   Self-Cleaning coatings-glass         200
      • 3.8.4.2   Self-cleaning coatings-building and construction surfaces               200
      • 3.8.4.3   Photocatalytic oxidation (PCO) indoor air filters  202
      • 3.8.4.4   Water treatment             203
      • 3.8.4.5   Medical facilities               203
      • 3.8.4.6   Antimicrobial coating indoor light activation         204
    • 3.8.5      Global market size           204
    • 3.8.6      Product developers        207
  • 3.9          UV-RESISTANT NANOCOATINGS 209
    • 3.9.1      Market overview             209
    • 3.9.2      Market assessment        210
    • 3.9.3      Market drivers and trends            210
    • 3.9.4      Applications       211
      • 3.9.4.1   Textiles 211
      • 3.9.4.2   Wood coatings  211
    • 3.9.5      Global market size           212
    • 3.9.6      Product developers        215
  • 3.10        THERMAL BARRIER AND FLAME RETARDANT NANOCOATINGS     216
    • 3.10.1    Market overview             216
    • 3.10.2    Market assessment        217
    • 3.10.3    Market drivers and trends            217
    • 3.10.4    Applications       218
    • 3.10.5    Global market size           219
    • 3.10.6    Product developers        222
  • 3.11        ANTI-ICING AND DE-ICING NANOCOATINGS         223
    • 3.11.1    Market overview             223
    • 3.11.2    Market assessment        223
    • 3.11.3    Market drivers and trends            224
    • 3.11.4    Applications       226
      • 3.11.4.1                Hydrophobic and superhydrophobic coatings (HSH)          226
      • 3.11.4.2                Heatable coatings            227
      • 3.11.4.3                Anti-freeze protein coatings        228
    • 3.11.5    Global market size           229
    • 3.11.6    Product developers        231
  • 3.12        ANTI-REFLECTIVE NANOCOATINGS           233
    • 3.12.1    Market overview             233
    • 3.12.2    Market drivers and trends            233
    • 3.12.3    Applications       235
    • 3.12.4    Global market size           235
    • 3.12.5    Product developers        237
  • 3.13        SELF-HEALING NANOCOATINGS 239
  • 3.13.1    Market overview             239
  • 3.13.1.1                Extrinsic self-healing       240
  • 3.13.1.2                Capsule-based  240
  • 3.13.1.3                Vascular self-healing      240
  • 3.13.1.4                Intrinsic self-healing       240
  • 3.13.1.5                Healing volume 241
  • 3.13.2    Applications       243
    • 3.13.2.1                Self-healing coatings       244
    • 3.13.2.2                Anti-corrosion   244
    • 3.13.2.3                Scratch repair    244
    • 3.13.2.4                Polyurethane clear coats               245
    • 3.13.2.5                Micro-/nanocapsules     246
    • 3.13.2.6                Microvascular networks 247
    • 3.13.2.7                Reversible polymers       248
    • 3.13.2.8                Click polymerization       248
    • 3.13.2.9                Polyampholyte hydrogels             249
    • 3.13.2.10              Shape memory 249
  • 3.13.3    Global market size           250
  • 3.13.4    Product developers        254

 

4              MARKET SEGMENT ANALYSIS, BY END USER MARKET       256

  • 4.1          AVIATION AND AEROSPACE         257
    • 4.1.1      Market drivers and trends            257
    • 4.1.2      Applications       258
      • 4.1.2.1   Thermal protection         260
      • 4.1.2.2   Icing prevention               260
      • 4.1.2.3   Conductive and anti-static            260
      • 4.1.2.4   Corrosion resistant          261
      • 4.1.2.5   Insect contamination      261
    • 4.1.3      Global market size           262
      • 4.1.3.1   Nanocoatings opportunity           262
      • 4.1.3.2   Global revenues 2010-2031          263
    • 4.1.4      Companies         264
  • 4.2          AUTOMOTIVE   268
    • 4.2.1      Market drivers and trends            268
    • 4.2.2      Applications       268
      • 4.2.2.1   Anti-scratch nanocoatings            269
      • 4.2.2.2   Conductive coatings        269
      • 4.2.2.3   Hydrophobic and oleophobic      270
      • 4.2.2.4   Anti-corrosion   270
      • 4.2.2.5   UV-resistance   270
      • 4.2.2.6   Thermal barrier 271
      • 4.2.2.7   Flame retardant               271
      • 4.2.2.8   Anti-fingerprint 271
      • 4.2.2.9   Anti-bacterial     271
      • 4.2.2.10                Self-healing        272
    • 4.2.3      Global market size           272
      • 4.2.3.1   Nanocoatings opportunity           272
    • 4.2.3.2   Global revenues 2010-2031          274
    • 4.2.4      Companies         275
  • 4.3          CONSTRUCTION               279
    • 4.3.1      Market drivers and trends            279
    • 4.3.2      Applications       279
      • 4.3.2.1   Protective coatings for glass, concrete and other construction materials  281
      • 4.3.2.2   Photocatalytic nano-TiO2 coatings            281
      • 4.3.2.3   Anti-graffiti         283
      • 4.3.2.4   UV-protection   283
      • 4.3.2.5   Titanium dioxide nanoparticles  283
      • 4.3.2.6   Zinc oxide nanoparticles               284
    • 4.3.3      Global market size           284
      • 4.3.3.1   Nanocoatings opportunity           284
      • 4.3.3.2   Global revenues 2010-2031          286
    • 4.3.4      Companies         288
  • 4.4          ELECTRONICS     292
    • 4.4.1      Market drivers  292
    • 4.4.2      Applications       293
      • 4.4.2.1   Transparent functional coatings 293
      • 4.4.2.2   Anti-reflective coatings for displays          293
      • 4.4.2.3   Waterproof coatings       294
      • 4.4.2.4   Conductive nanocoatings and films          296
      • 4.4.2.5   Anti-fingerprint 296
      • 4.4.2.6   Anti-abrasion     297
      • 4.4.2.7   Conductive         297
      • 4.4.2.8   Self-healing consumer electronic device coatings               297
      • 4.4.2.9   Flexible and stretchable electronics         298
    • 4.4.3      Global market size           299
      • 4.4.3.1   Nanocoatings opportunity           299
      • 4.4.3.2   Global revenues 2010-2031          300
      • 4.4.4      Companies         301
  • 4.5          HOUSEHOLD CARE, SANITARY AND INDOOR AIR QUALITY               305
    • 4.5.1      Market drivers and trends            305
    • 4.5.2      Applications       305
      • 4.5.2.1   Self-cleaning and easy-to-clean 305
      • 4.5.2.2   Food preparation and processing              305
      • 4.5.2.3   Indoor pollutants and air quality                306
    • 4.5.3      Global market size           307
      • 4.5.3.1   Nanocoatings opportunity           307
      • 4.5.3.2   Global revenues 2010-2031          309
    • 4.5.4      Companies         310
  • 4.6          MARINE               313
    • 4.6.1      Market drivers and trends            313
    • 4.6.2      Applications       314
    • 4.6.3      Global market size           315
      • 4.6.3.1   Nanocoatings opportunity           315
      • 4.6.3.2   Global revenues 2010-2031          315
    • 4.6.4      Companies         317
  • 4.7          MEDICAL & HEALTHCARE              319
    • 4.7.1      Market drivers and trends            319
    • 4.7.2      Applications       320
      • 4.7.2.1   Anti-fouling coatings       321
      • 4.7.2.2   Anti-microbial, anti-viral and infection control     321
      • 4.7.2.3   Medical textiles 321
      • 4.7.2.4   Nanosilver          321
      • 4.7.2.5   Medical device coatings 322
    • 4.7.3      Global market size           324
    • 4.7.3.1   Nanocoatings opportunity           324
    • 4.7.3.2   Global revenues 2010-2031          325
    • 4.7.4      Companies         327
  • 4.8          MILITARY AND DEFENCE                331
    • 4.8.1      Market drivers and trends            331
    • 4.8.2      Applications       331
      • 4.8.2.1   Textiles 332
      • 4.8.2.2   Military equipment         332
      • 4.8.2.3   Chemical and biological protection           332
      • 4.8.2.4   Decontamination             332
      • 4.8.2.5   Thermal barrier 332
      • 4.8.2.6   EMI/ESD Shielding           333
      • 4.8.2.7   Anti-reflection  333
    • 4.8.3      Global market size           333
      • 4.8.3.1   Nanocoatings opportunity           333
      • 4.8.3.2   Global market revenues 2010-2031          334
    • 4.8.4      Companies         335
  • 4.9          PACKAGING       338
    • 4.9.1      Market drivers and trends            338
    • 4.9.2      Applications       339
      • 4.9.2.1   Barrier films        339
      • 4.9.2.2   Anti-microbial    340
      • 4.9.2.3   Biobased and active packaging   341
    • 4.9.3      Global market size           342
      • 4.9.3.1   Nanocoatings opportunity           342
      • 4.9.3.2   Global market revenues 2010-2031          343
    • 4.9.4      Companies         344
  • 4.10        TEXTILES AND APPAREL 346
    • 4.10.1    Market drivers and trends            346
    • 4.10.2    Applications       346
      • 4.10.2.1                Protective textiles           347
      • 4.10.2.2                UV-resistant textile coatings       352
      • 4.10.2.3                Conductive coatings        352
    • 4.10.3    Global market size           353
      • 4.10.3.1                Nanocoatings opportunity           354
      • 4.10.3.2                Global market revenues 2010-2031          355
    • 4.10.4    Companies         357
  • 4.11        ENERGY                360
    • 4.11.1    Market drivers and trends            360
    • 4.11.2    Applications       360
      • 4.11.2.1                Wind energy      360
      • 4.11.2.2                Solar      361
      • 4.11.2.3                Anti-reflection  363
      • 4.11.2.4                Gas turbine coatings       363
    • 4.11.3    Global market size           363
      • 4.11.3.1                Nanocoatings opportunity           363
      • 4.11.3.2                Global market revenues 2010-2031          365
    • 4.11.4    Companies         367
  • 4.12        OIL AND GAS      369
    • 4.12.1    Market drivers and trends            369
    • 4.12.2    Applications       370
      • 4.12.2.1                Anti-corrosion pipelines 372
      • 4.12.2.2                Drilling in sub-zero climates         373
    • 4.12.3    Global market size           373
      • 4.12.3.1                Nanocoatings opportunity           373
      • 4.12.3.2                Global market revenues 2010-2031          374
    • 4.12.4    Companies         376
  • 4.13        TOOLS AND MACHINING              378
    • 4.13.1    Market drivers and trends            378
    • 4.13.2    Applications       378
    • 4.13.3    Global market size           379
      • 4.13.3.1                Global market revenues 2010-2031          379
    • 4.13.4    Companies         380
  • 4.14        ANTI-COUNTERFEITING 382
    • 4.14.1    Market drivers and trends            382
    • 4.14.2    Applications       382
    • 4.14.3    Global market size           383
      • 4.14.3.1                Global market revenues 2010-2031          383
    • 4.14.4    Companies         384

 

5              NANOCOATINGS COMPANIES    387

  • 5.1          3M         387
  • 5.2          Abrisa Technologies        387
  • 5.3          Accucoat, inc.     388
  • 5.4          Aculon, Inc.         388
  • 5.5          Acreo Engineering           389
  • 5.6          Adaptive Surface Technologies  390
  • 5.7          Advanced Materials-JTJ S.R.O.    391
  • 5.8          Advanced Nanotech Lab               392
  • 5.9          Advanced Silicon Group 392
  • 5.10        Advanced Soft Materials, Inc.      392
  • 5.11        Advenira Enterprises, Inc.             393
  • 5.12        Aereus Technologies      394
  • 5.13        Agienic Antimicrobials    394
  • 5.14        AKALI Technology            395
  • 5.15        AkzoNobel          396
  • 5.16        ALD Nanosolutions, Inc. 396
  • 5.17        Alfred Clouth Lackfabrik GmbH & Co. KG                397
  • 5.18        Allied Bioscience              398
  • 5.19        AMProtecTion, LLC          398
  • 5.20        Alchemy              399
  • 5.21        Alexium, Inc.      399
  • 5.22        Americhem        400
  • 5.23        AMProtecTion, LLC          401
  • 5.24        AM Technology Ltd.        401
  • 5.25        Analytical Services & Materials, Inc.         402
  • 5.26        Ancatt   402
  • 5.27        Applied Graphene Materials       403
  • 5.28        Applied Nanocoatings, Inc.           404
  • 5.29        Applied Nanotechnologies S.L.   404
  • 5.30        Applied Nano Surfaces   405
  • 5.31        Applied Sciences, Inc.     405
  • 5.32        Applied Thin Films, Inc   406
  • 5.33        Artekya 406
  • 5.34        Ar Brown             407
  • 5.35        ARA-Coatings    407
  • 5.36        Asahi Glass Co., Ltd.        407
  • 5.37        Attonuclei           408
  • 5.38        Autonomic Materials, Inc.             408
  • 5.39        Avaluxe International GmbH       409
  • 5.40        Avanzare Innovacion Tecnologica S.L.      410
  • 5.41        Bactiguard AB    410
  • 5.42        BASF Corporation             411
  • 5.43        Battelle 412
  • 5.44        Beneq Oy            413
  • 5.45        BigSky Technologies LLC 413
  • 5.46        Biocote Ltd.        414
  • 5.47        Bio-Fence            415
  • 5.48        Bio-Gate AG       415
  • 5.49        Bioni CS GmbH  416
  • 5.50        Bionic Technology Holding BV.   417
  • 5.51        Boral Limited     418
  • 5.52        Buhler Partec     418
  • 5.53        BYK-Chemie GmbH         419
  • 5.54        Cambridge Nanotherm Limited  420
  • 5.55        Cambrios Technologies Corporation        421
  • 5.56        Cardinal Glass Industries               421
  • 5.57        Caparol 422
  • 5.58        Carbodeon Ltd. Oy           422
  • 5.59        Ceko Co., Ltd.     423
  • 5.60        Cellutech AB       424
  • 5.61        CeloNova BioSciences, Inc.           424
  • 5.62        CeNano GmbH & Co. KG               425
  • 5.63        Cellucomp Ltd.  425
  • 5.64        CeloNova BioSciences, Inc.           426
  • 5.65        Cetelon Nanotechhnik GmbH     427
  • 5.66        Cellutech AB       428
  • 5.67        Cidetec 428
  • 5.68        CG2 Nanocoatings, Inc.  429
  • 5.69        Clarcor Industrial Air       430
  • 5.70        Cleancorp Nanocoatings               431
  • 5.71        Clearbridge Technologies Pte. Ltd.            432
  • 5.72        Clou       432
  • 5.73        CMR Coatings GmbH      433
  • 5.74        CNM Technologies GmbH             433
  • 5.75        Coating Suisse GmbH     434
  • 5.76        Corning, Incorporated    434
  • 5.77        Cotec GmbH       435
  • 5.78        Coval Molecular Coatings             435
  • 5.79        Covalon Technologies Ltd.            436
  • 5.80        Covestro AG       437
  • 5.81        Cristal/Tronox   437
  • 5.82        Crossroads Coatings        438
  • 5.83        CSD Nano, Inc.   438
  • 5.84        CTECHnano         439
  • 5.85        Cytonix LLC         439
  • 5.86        Dab FLow Nanotechnology          440
  • 5.87        Daicel FineChem Limited              440
  • 5.88        Daikin Industries, Ltd.    441
  • 5.89        Decorative Products GmbH          442
  • 5.90        Diamon-Fusion International, Inc.             442
  • 5.91        Diarc-Technology Oy       443
  • 5.92        Diatomix, INc.    443
  • 5.93        DFE Chemie GmbH          443
  • 5.94        Dortrend             444
  • 5.95        Dow Corning      445
  • 5.96        Dropwise Technologies Corporation        445
  • 5.97        DrivePur              446
  • 5.98        DryWired             446
  • 5.99        Dry Surface Technologies LLC      447
  • 5.100     DSP Co., Ltd.       447
  • 5.101     Dupont Teijin Films          448
  • 5.102     Duralar Technologies     448
  • 5.103     Duraseal Coatings            449
  • 5.104     Ecology Coatings LLC       450
  • 5.105     Eeonyx Corporation        451
  • 5.106     Eikos, Inc.            451
  • 5.107     Elcora Advanced Materials           452
  • 5.108     Energenics          453
  • 5.109     Engineered Nanoproducts Germany AG 453
  • 5.110     Enki Technology               454
  • 5.111     ENVIRAL Oberflächenveredelung GmbH 454
  • 5.112     Enviro Specialty Chemicals (ESC)                455
  • 5.113     EnvisionSQ          456
  • 5.114     EonCoat, LLC      457
  • 5.115     Eoxolit  457
  • 5.116     Europlasma NV 458
  • 5.117     Eurama Corporation       459
  • 5.118     Evonik Hanse     459
  • 5.119     F Group Nano LLC             460
  • 5.120     Few Chemicals GmbH    460
  • 5.121     Flora Coatings LLC            461
  • 5.122     FN Nano, Inc.     461
  • 5.123     ForgeNano         462
  • 5.124     Formacoat          462
  • 5.125     Freshlight SOlutions        463
  • 5.126     Fumin Co., Ltd.  463
  • 5.127     FutureCarbon GmbH      464
  • 5.128     Future Nanocoatings      464
  • 5.129     Gaematech        465
  • 5.130     GBneuhaus GmbH           465
  • 5.131     GE Global Research         466
  • 5.132     General Paints   467
  • 5.133     GKN plc 467
  • 5.134     Global Graphene Group 468
  • 5.135     Grafoid, Inc         468
  • 5.136     GrapheneCA      469
  • 5.137     Graphene Innovation & Technologies (GIT)          470
  • 5.138     Graphematech AB           471
  • 5.139     Green Earth Nano Science, Inc.  472
  • 5.140     Green Millenium, Inc.     473
  • 5.141     Grillo Zinkoxid GmbH     473
  • 5.142     Grox Industries 474
  • 5.143     Grupo Repol       475
  • 5.144     GSI Creos Corporation    475
  • 5.145     GXC Coatings     476
  • 5.146     GVD Corporation              477
  • 5.147     HakusuiTech Co., Ltd.     477
  • 5.148     Hardide Coatings              478
  • 5.149     Hemoteq GmbH               479
  • 5.150     HeiQ Materials AG           480
  • 5.151     Henkel AG & Co. KGaA   480
  • 5.152     Hexigone Inhibitors Ltd. 481
  • 5.153     Hexis S.A.            481
  • 5.154     Hiab Products    482
  • 5.155     Hitachi Chemical               483
  • 5.156     Honeywell International, Inc.      483
  • 5.157     Hoowaki LLC       484
  • 5.158     HyperSolar, Inc. 484
  • 5.159     Hy-Power Nano, Inc.       485
  • 5.160     HzO, Inc.              485
  • 5.161     Hygratek, LLC     486
  • 5.162     iFyber, LLC           487
  • 5.163     Imagine Intelligent Materials       487
  • 5.164     Imbed Biosciences, Inc. 488
  • 5.165     Inframat Corporation     489
  • 5.166     Inhibit Coatings 490
  • 5.167     InMat, Inc.          490
  • 5.168     Innovative Surface Technologies, Inc (ISurTech) 491
  • 5.169     Inno-X  492
  • 5.170     Instrumental Polymer Technologies LLC 493
  • 5.171     Integrated Surface Technologies, Inc.      493
  • 5.172     Integran Technologies, Inc.          494
  • 5.173     Integricote          495
  • 5.174     Interlotus Nanotechnologie GmbH           496
  • 5.175     Intumescents Associates Group 497
  • 5.176     Ionics Surface Technologies         498
  • 5.177     Ishihara Sangyo Kaisha, Ltd.         498
  • 5.178     ISTN, Inc.             499
  • 5.179     Italcementi Group           500
  • 5.180     Izovac Ltd.           500
  • 5.181     JNC Corporation               501
  • 5.182     Joma International AS    501
  • 5.183     Jotun Protective Coatings             502
  • 5.184     Kaneka Corporation        502
  • 5.185     Kastus Technologies Ltd.               503
  • 5.186     Kriya Materials B.V.         504
  • 5.187     Kon Corporation               504
  • 5.188     Kusumoto Chemicals      505
  • 5.189     Leibniz Institute for New Materials (INM)              506
  • 5.190     Life Air Iaq Ltd.  506
  • 5.191     Lintec of America, Inc.    507
  • 5.192     Lipocoat BV        507
  • 5.193     Liquiglide, Inc.   508
  • 5.194     Liquipel, LLC       508
  • 5.195     Lofec Nanocoatings         509
  • 5.196     Lotus Applied Technology            509
  • 5.197     Lotus Leaf Coatings, Inc. 510
  • 5.198     Luna Innovtions 510
  • 5.199     MACOMA Environmental Technologies, LLC         511
  • 5.200     Maeda-KougyouCo, Ltd. 512
  • 5.201     Marusyo Sangyo Co., Ltd.              512
  • 5.202     Master Dynamic Limited               513
  • 5.203     Mavro   514
  • 5.204     Maxon Technologies      514
  • 5.205     MDS Coating Technologies Corporation  515
  • 5.206     Melodea Ltd.     515
  • 5.207     Merck Performance Materials    517
  • 5.208     Mesocoat, Inc.  517
  • 5.209     Metal Estalki      518
  • 5.210     Metashield         518
  • 5.211     Mica NanoTech 519
  • 5.212     Millidyne Oy       520
  • 5.213     MMT Textiles Limited     520
  • 5.214     Modumetal, Inc.               521
  • 5.215     Molecular Rebar               521
  • 5.216     Muschert            522
  • 5.217     Muse Nanobots 523
  • 5.218     MVX Protex        523
  • 5.219     N2 Biomedical LLC           524
  • 5.220     Nanjing High Technology Nano Material Co., Ltd. (HTNano)           524
  • 5.221     Nanobiomatters S.I.        525
  • 5.222     Nano Came Co. Ltd.         525
  • 5.223     Nano-Care Deutschland AG         527
  • 5.224     Nanoclean Global Private Limited              527
  • 5.225     NanoCover A/S 528
  • 5.226     Nanocyl                529
  • 5.227     Nanofilm, Ltd.    529
  • 5.228     Nanogate AG     530
  • 5.229     Nanohmics         531
  • 5.230     Nanohydrophobics, Inc. 531
  • 5.231     Nanokote Pty Ltd.            532
  • 5.232     NanoLotus Scandanavia Aps        532
  • 5.233     Nanomate Technology  533
  • 5.234     Nanomedic Technologies Ltd.     533
  • 5.235     Nanomech          534
  • 5.236     Nanomembrane              534
  • 5.237     NanoPack, Inc.  535
  • 5.238     NanoPhos SA     536
  • 5.239     NanoPhyll, INc. 536
  • 5.240     Nanopool GmbH              537
  • 5.241     NanoPure Technologies 538
  • 5.242     nanoSAAR AG    538
  • 5.243     Nanosol AG        539
  • 5.244     Nanosonic, Inc. 540
  • 5.245     The NanoSteel Company, Inc.     541
  • 5.246     Nano Surface Solutions  541
  • 5.247     Nanotech Security Corporation  542
  • 5.248     Nano-Tex, Inc.   542
  • 5.249     NanoTouch Materials, LLC            543
  • 5.250     Nanovere Technologies, LLC        544
  • 5.251     Nanoveu Pte. Ltd.            545
  • 5.252     Nanovis Inc.        545
  • 5.253     Nanova Care Coat            546
  • 5.254     Nanowave Inc.  547
  • 5.255     Nano-X GmbH   548
  • 5.256     Nano-Z Coating Ltd.         549
  • 5.257     NascNano Technology Co., Ltd.  549
  • 5.258     NBD Nanotechnologies 550
  • 5.259     Nanto Protective Coating              551
  • 5.260     NEI Corporation 553
  • 5.261     Nelumbo             554
  • 5.262     Neoxal  554
  • 5.263     Neverwet LLC    554
  • 5.264     NGimat 555
  • 5.265     NIL Technology ApS        555
  • 5.266     NILima Nanotechnologies            556
  • 5.267     Nippon Paper Industries               556
  • 5.268     Nippon Sheet Glass Co., Ltd.        558
  • 5.269     Nissan Chemical Industries Ltd.  559
  • 5.270     NITROPEP           560
  • 5.271     Nobio Ltd.           561
  • 5.272     Norcop 562
  • 5.273     NTC Nanotech Coatings GmbH   563
  • 5.274     NOF Corporation              563
  • 5.275     n-tec GmbH        564
  • 5.276     NTT Advanced Technology Corporation  565
  • 5.277     Oceanit 565
  • 5.278     Opticote Inc.      566
  • 5.279     Optics Balzers Ag              566
  • 5.280     Optitune Oy       567
  • 5.281     Opus Materials Technology         567
  • 5.282     Organiclick AB   568
  • 5.283     Oxford Advanced Surfaces           568
  • 5.284     Oxford Nanosystems      569
  • 5.285     Oxlutia  570
  • 5.286     P2i Ltd. 570
  • 5.287     Paperlogic           571
  • 5.288     Perpetual Technologies, Inc.       572
  • 5.289     Philippi-Hagenbuch, Inc.               572
  • 5.290     Picosun Oy          573
  • 5.291     Pioneer Medical Devices GmbH 573
  • 5.292     Pixelligent Technologies 574
  • 5.293     Polymerplus, LLC              574
  • 5.294     Powdermet, Inc.              575
  • 5.295     PPG Industries, Inc.         576
  • 5.296     Promethean Particles Ltd.            577
  • 5.297     Promimic AB      577
  • 5.298     Pureti, Inc.          578
  • 5.299     qLayers 579
  • 5.300     Quantiam Technologies, Inc.       579
  • 5.301     QuatCare LLC     580
  • 5.302     Rads Global Business BV               580
  • 5.303     RAS AG 581
  • 5.304     RBNano 582
  • 5.305     Reactive Surfaces, LLP    582
  • 5.306     Resodyn Corporation     583
  • 5.307     Resysten             583
  • 5.308     Rochling Engineering Plastics      584
  • 5.309     Royal DSM N.V. 585
  • 5.310     Rust-Oleum        585
  • 5.311     Saint-Gobain Glass          586
  • 5.312     Sandvik Materials Technology    586
  • 5.313     Schott AG            587
  • 5.314     Schaeffler Technologies AG & Co. KG       587
  • 5.315     Sciessent LLC      588
  • 5.316     Scutum Nano Solutions GmbH    589
  • 5.317     sdst        589
  • 5.318     Seashell Technology LLC-Hydrobead        590
  • 5.319     Seiko PMC /KJ Chemicals              590
  • 5.320     Sensor Coating Systems (SCS)     591
  • 5.321     Sol-Gel Materials and Applications (SGMA)          591
  • 5.322     Sharklet Technologies, Inc.           592
  • 5.323     The Sherwin Williams Company 593
  • 5.324     Shin-Etsu Silicones           593
  • 5.325     SHM      594
  • 5.326     Showa Denko K.K.            594
  • 5.327     Sicora Technologies Private Limited         595
  • 5.328     SiO2 Nanotech, LLC         595
  • 5.329     Sketch Co., Ltd. 596
  • 5.330     Slips Technology               597
  • 5.331     Sobinco 597
  • 5.332     SolCold 598
  • 5.333     Sono-Tek Corporation    599
  • 5.334     Sonovia 599
  • 5.335     Souma Co., Ltd. 600
  • 5.336     Starfire Systems, Inc.      600
  • 5.337     Starlight Industry Co., Ltd.            601
  • 5.338     Sub-One Technology, Inc.             602
  • 5.339     Sugino Machine Limited 603
  • 5.340     Sumitomo Electric Hard-Metal Ltd.           606
  • 5.341     Sunex, inc.          607
  • 5.342     SupraPolix BV    607
  • 5.343     Suncoat GmbH  608
  • 5.344     SuSoS AG             609
  • 5.345     Surfactis Technologies SAS           609
  • 5.346     Surfatek LLC       610
  • 5.347     Surfix BV              611
  • 5.348     Surwon Technology        612
  • 5.349     Suzhou Super Nano-Textile Teco Co.        612
  • 5.350     Swift Coat, inc.  613
  • 5.351     Talga Resources 613
  • 5.352     Taiyo Kogyo Corporation               614
  • 5.353     Takenake Seisakusho Co., Ltd.    614
  • 5.354     Tata Steel            615
  • 5.355     Tecnalia                615
  • 5.356     TEC10-9                616
  • 5.357     Tesla Nanocoatings         616
  • 5.358     Thomas Swan    617
  • 5.359     TitanPE Technologies, Inc.            618
  • 5.360     TNO       619
  • 5.361     TopChim NV       619
  • 5.362     Topasol LLC         620
  • 5.363     TopsenTechnology          620
  • 5.364     Toray Advanced Film Co., Ltd.     621
  • 5.365     Toshiba Materials Co., Ltd.           622
  • 5.366     Toto       622
  • 5.367     Toyokosho Co., Ltd.         623
  • 5.368     Toyota Tsusho Corporation          624
  • 5.369     Ube Exsymo Co., Ltd.      624
  • 5.370     Ultratech International, Inc.         625
  • 5.371     USA Nanocoat   626
  • 5.372     Valentis Nanotech           626
  • 5.373     Vestagen Protective Technologies, Inc.  627
  • 5.374     Viaex Technologies, Inc. 628
  • 5.375     Viriflex  628
  • 5.376     Wacker Chemie AG         629
  • 5.377     Wattglass, LLC   629
  • 5.378     X-Therma, Inc.   630
  • 5.379     Xtalic Corporation            631
  • 5.380     Yield Co., Ltd.     631
  • 5.381     Zixilai Environoment       633
  • 5.382     Znshine Solar     633

 

6              NANOCOATINGS COMPANIES NO LONGER TRADING        634

 

7              RESEARCH METHODOLOGY         635

  • 7.1          Aims and objectives of the study               635
  • 7.2          Market definition             636
    • 7.2.1      Properties of nanomaterials        636
    • 7.2.2      Categorization   637

 

8              REFERENCES       639

 

TABLES

  • Table 1: Properties of nanocoatings.        45
  • Table 2. Market drivers and trends in nanocoatings.         46
  • Table 3: End user markets for nanocoatings.        52
  • Table 4: Global revenues for nanocoatings, 2010-2031, millions USD.        55
  • Table 5: Market and technical challenges for nanocoatings.           57
  • Table 6: Technology for synthesizing nanocoatings agents.            62
  • Table 7: Film coatings techniques.            63
  • Table 8. Contact angles of hydrophilic, super hydrophilic, hydrophobic and superhydrophobic surfaces.   74
  • Table 9: Disadvantages of commonly utilized superhydrophobic coating methods.             76
  • Table 10. Applications of oleophobic & omniphobic coatings.       79
  • Table 11: Nanomaterials used in nanocoatings and applications. 81
  • Table 12: Graphene properties relevant to application in coatings.             84
  • Table 13: Uncoated vs. graphene coated (right) steel wire in corrosive environment solution after 30 days.             85
  • Table 14. Bactericidal characters of graphene-based materials.   87
  • Table 15: Market and applications for SWCNTs in coatings.            93
  • Table 16. Types of carbon-based nanoparticles as antimicrobial agent, their mechanisms of action and characteristics.                96
  • Table 17. Applications of nanosilver in coatings. 100
  • Table 18. Markets and applications for antimicrobial nanosilver nanocoatings.     101
  • Table 19. Antibacterial effects of ZnO NPs in different bacterial species.  114
  • Table 20. Market and applications for NDs in anti-friction and anti-corrosion coatings.      117
  • Table 21. Applications of nanocellulose in coatings.          122
  • Table 22: Applications of cellulose nanofibers(CNF).         123
  • Table 23: Applications of bacterial cellulose (BC).               126
  • Table 24. Mechanism of chitosan antimicrobial action.    130
  • Table 25. Market overview  for anti-fingerprint nanocoatings.      132
  • Table 26: Market assessment for anti-fingerprint nanocoatings.  134
  • Table 27. Market drivers and trends for anti-fingerprint nanocoatings.     134
  • Table 28: Anti-fingerprint coatings product and application developers.  139
  • Table 29. Growth Modes of Bacteria and characteristics. 144
  • Table 30. Anti-microbial nanocoatings-Nanomaterials used, principles, properties and applications             146
  • Table 31. Market assessment for anti-microbial nanocoatings.     148
  • Table 32. Market drivers and trends for anti-microbial and anti-viral nanocoatings.            148
  • Table 33. Nanomaterials used in anti-microbial and anti-viral nanocoatings and applications.         151
  • Table 34: Anti-microbial amd anti-viral nanocoatings product and application developers.              154
  • Table 35. Market overview for anti-corrosion nanocoatings.         157
  • Table 36: Market assessment for anti-corrosion nanocoatings.    159
  • Table 37. Market drivers and trends for use of anti-corrosion nanocoatings.          159
  • Table 38: Superior corrosion protection using graphene-added epoxy coatings, right, as compared to a commercial zinc-rich epoxy primer, left.         163
  • Table 39: Applications for anti-corrosion nanocoatings.   163
  • Table 40: Opportunity for anti-corrosion nanocoatings by 2030.   165
  • Table 41: Anti-corrosion nanocoatings product and application developers.          166
  • Table 42. Market overview for abrasion and wear-resistant nanocoatings.             169
  • Table 43. Market assessment for abrasion and wear-resistant nanocoatings          170
  • Table 44. Market driversaand trends for use of abrasion and wear resistant nanocoatings.              171
  • Table 45. Applications for abrasion and wear-resistant nanocoatings.       172
  • Table 46. Potential addressable market for abrasion and wear-resistant nanocoatings      172
  • Table 47: Abrasion and wear resistant nanocoatings product and application developers. 174
  • Table 48.Market assessment for barrier nanocoatings and films. 176
  • Table 49. Market drivers and trends for barrier nanocoatings       176
  • Table 50. Potential addressable market for barrier nanocoatings.               179
  • Table 51: Barrier nanocoatings product and application developers.         180
  • Table 52: Anti-fouling and easy-to-clean nanocoatings-Nanomaterials used, principles, properties and applications.                182
  • Table 53. Market assessment for anti-fouling and easy-to-clean nanocoatings.     183
  • Table 54. Market drivers and trends for use of anti-fouling and easy to clean nanocoatings.            183
  • Table 55. Anti-fouling and easy-to-clean nanocoatings markets, applications and potential addressable market.   185
  • Table 56: Anti-fouling and easy-to-clean nanocoatings product and application developers.           187
  • Table 57. Market overview for self-cleaning nanocoatings.            190
  • Table 58. Market assessment for self-cleaning (bionic) nanocoatings.       191
  • Table 59. Market drivers and trends for self-cleaning nanocoatings.          192
  • Table 60. Self-cleaning (bionic) nanocoatings-Markets and applications.  193
  • Table 61: Self-cleaning (bionic) nanocoatings product and application developers.             195
  • Table 62. Market overview for photocatalytic nanocoatings.         197
  • Table 63. Market assessment for photocatalytic nanocoatings.    198
  • Table 64. Market drivers and trends in photocatalytic nanocoatings.         199
  • Table 65. Photocatalytic nanocoatings-Markets, applications and potential addressable market size by 2027.          205
  • Table 66: Self-cleaning (photocatalytic) nanocoatings product and application developers.             207
  • Table 67. Market overview for UV resistant nanocoatings.             209
  • Table 68. Market assessment for UV-resistant nanocoatings.       210
  • Table 69: Market assessment for UV-resistant nanocoatings.       210
  • Table 70. Market drivers and trends in UV-resistant nanocoatings.            210
  • Table 71. UV-resistant nanocoatings-Markets, applications and potential addressable market.      212
  • Table 72: UV-resistant nanocoatings product and application developers.              215
  • Table 73. Market overview for thermal barrier and flame retardant nanocoatings.              216
  • Table 74. Market assessment for thermal barrier and flame retardant nanocoatings.         217
  • Table 75. Market drivers and trends in thermal barrier and flame retardant nanocoatings.              217
  • Table 76. Nanomaterials utilized in thermal barrier and flame retardant coatings and benefits thereof.    218
  • Table 77. Thermal barrier and flame retardant nanocoatings-Markets, applications and potential addressable markets.                220
  • Table 78: Thermal barrier and flame retardant nanocoatings product and application developers.               222
  • Table 79. Market overview for anti-icing and de-icing nanocoatings.          223
  • Table 80. Market assessment for anti-icing and de-icing nanocoatings.     224
  • Table 81. Market drivers and trends for use of anti-icing and de-icing nanocoatings.          224
  • Table 82: Nanomaterials utilized in anti-icing coatings and benefits thereof.          228
  • Table 83. Anti-icing and de-icing nanocoatings-Markets, applications and potential addressable markets. 229
  • Table 84: Anti-icing and de-icing nanocoatings product and application developers.           231
  • Table 85: Anti-reflective nanocoatings-Nanomaterials used, principles, properties and applications.           233
  • Table 86. Market drivers and trends in Anti-reflective nanocoatings.         233
  • Table 87. Market opportunity for anti-reflection nanocoatings.   236
  • Table 88: Anti-reflective nanocoatings product and application developers.          237
  • Table 89: Types of self-healing coatings and materials.    242
  • Table 90: Comparative properties of self-healing materials.           243
  • Table 91: Types of self-healing nanomaterials.    245
  • Table 92: Companies producing polyurethane clear coat products for self-healing.             246
  • Table 93. Self-healing materials and coatings markets and applications.   250
  • Table 94: Self-healing nanocoatings product and application developers. 254
  • Table 95. Market drivers and trends for nanocoatings in aviation and aerospace. 257
  • Table 96: Types of nanocoatings utilized in aerospace and application.     259
  • Table 97: Revenues for nanocoatings in the aerospace industry, 2010-2031.           263
  • Table 98: Aerospace nanocoatings product developers.  265
  • Table 99: Market drivers and trends for nanocoatings in the automotive market. 268
  • Table 100: Anti-scratch automotive nanocoatings.            269
  • Table 101: Conductive automotive nanocoatings.              269
  • Table 102: Hydro- and oleophobic automotive nanocoatings.       270
  • Table 103: Anti-corrosion automotive nanocoatings.        270
  • Table 104: UV-resistance automotive nanocoatings.        270
  • Table 105: Thermal barrier automotive nanocoatings.     271
  • Table 106: Flame retardant automotive nanocoatings.    271
  • Table 107: Anti-fingerprint automotive nanocoatings.     271
  • Table 108: Anti-bacterial automotive nanocoatings.         271
  • Table 109: Self-healing automotive nanocoatings.             272
  • Table 110: Revenues for nanocoatings in the automotive industry, 2010-2031, US$, conservative and optimistic estimate.             274
  • Table 111: Automotive nanocoatings product developers.             275
  • Table 112: Market drivers and trends for nanocoatings in the construction market.            279
  • Table 113: Nanocoatings applied in the construction industry-type of coating, nanomaterials utilized and benefits.                280
  • Table 114: Photocatalytic nanocoatings-Markets and applications.             282
  • Table 115: Revenues for nanocoatings in construction, architecture and exterior protection, 2010-2031, US$.        286
  • Table 116: Construction, architecture and exterior protection nanocoatings product developers. 288
  • Table 117: Market drivers for nanocoatings in electronics.             292
  • Table 118: Main companies in waterproof nanocoatings for electronics, products and synthesis methods.              295
  • Table 119: Conductive electronics nanocoatings.               296
  • Table 120: Anti-fingerprint electronics nanocoatings.       296
  • Table 121: Anti-abrasion electronics nanocoatings.           297
  • Table 122: Conductive electronics nanocoatings.               297
  • Table 123: Revenues for nanocoatings in electronics, 2010-2031, US$.     300
  • Table 124: Nanocoatings applications developers in electronics. 301
  • Table 125: Market drivers and trends for nanocoatings in household care and sanitary.    305
  • Table 126: Revenues for nanocoatings in household care, sanitary and indoor air quality, 2010-2031, US$.              309
  • Table 127: Household care, sanitary and indoor air quality nanocoatings product developers.       310
  • Table 128: Market drivers and trends for nanocoatings in the marine industry.     313
  • Table 129: Nanocoatings applied in the marine industry-type of coating, nanomaterials utilized and benefits.        314
  • Table 130: Revenues for nanocoatings in the marine sector, 2010-2031, US$.        315
  • Table 131: Marine nanocoatings product developers.      317
  • Table 132: Market drivers and trends for nanocoatings in medicine and healthcare.           319
  • Table 133: Nanocoatings applied in the medical industry-type of coating, nanomaterials utilized, benefits and applications.       321
  • Table 134: Types of advanced coatings applied in medical devices and implants.  323
  • Table 135: Nanomaterials utilized in medical implants.    323
  • Table 136: Revenues for nanocoatings in medical and healthcare, 2010-2031, US$.            326
  • Table 137: Medical and healthcare nanocoatings product developers.     327
  • Table 138: Market drivers and trends for nanocoatings in the military and defence industry.         331
  • Table 139: Revenues for nanocoatings in military and defence, 2010-2031, US$.  334
  • Table 140: Military and defence nanocoatings product and application developers.           335
  • Table 141: Market drivers and trends for nanocoatings in the packaging industry.               338
  • Table 142: Revenues for nanocoatings in packaging, 2010-2031, US$.       343
  • Table 143: Packaging nanocoatings companies.  344
  • Table 144: Market drivers and trends for nanocoatings in the textiles and apparel industry.           346
  • Table 145: Applications in textiles, by advanced materials type and benefits thereof.        347
  • Table 146: Nanocoatings applied in the textiles industry-type of coating, nanomaterials utilized, benefits and applications.       349
  • Table 147: Applications and benefits of graphene in textiles and apparel.                352
  • Table 148: Revenues for nanocoatings in textiles and apparel, 2010-2031, US$.    356
  • Table 149: Textiles nanocoatings product developers.     357
  • Table 150: Market drivers and trends for nanocoatings in the energy industry.     360
  • Table 151: Revenues for nanocoatings in energy, 2010-2031, US$.             365
  • Table 152: Renewable energy nanocoatings product developers. 367
  • Table 153: Market drivers and trends for nanocoatings in the oil and gas exploration industry.      369
  • Table 154: Desirable functional properties for the oil and gas industry afforded by nanomaterials in coatings.        371
  • Table 155: Revenues for nanocoatings in oil and gas exploration, 2010-2031, US$.              374
  • Table 156: Oil and gas nanocoatings product developers.              376
  • Table 157: Market drivers and trends for nanocoatings in tools and machining.    378
  • Table 158: Revenues for nanocoatings in Tools and manufacturing, 2010-2031, US$.         379
  • Table 159: Tools and manufacturing nanocoatings product and application developers.   380
  • Table 160: Revenues for nanocoatings in anti-counterfeiting, 2010-2031, US$.     383
  • Table 161: Anti-counterfeiting nanocoatings product and application developers.              384
  • Table 162. Photocatalytic coating schematic.       456
  • Table 163. Nanocoatings companies no longer trading.   634
  • Table 164: Categorization of nanomaterials.         637

 

FIGURES

  • Figure 1. Schematic of anti-viral coating using nano-actives for inactivation of any adhered virus on the surfaces. 49
  • Figure 2. Face masks coated with antibacterial & antiviral nanocoating.   51
  • Figure 3: Global revenues for nanocoatings, 2010-2031, millions USD.      56
  • Figure 4: Regional demand for nanocoatings, 2019, millions USD.               57
  • Figure 5: Hydrophobic fluoropolymer nanocoatings on electronic circuit boards. 60
  • Figure 6: Nanocoatings synthesis techniques.      62
  • Figure 7: Techniques for constructing superhydrophobic coatings on substrates. 65
  • Figure 8: Electrospray deposition.             66
  • Figure 9: CVD technique.              67
  • Figure 10: Schematic of ALD.       69
  • Figure 11: SEM images of different layers of TiO2 nanoparticles in steel surface.  70
  • Figure 12: The coating system is applied to the surface.The solvent evaporates.  71
  • 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.                71
  • 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.               72
  • Figure 15: (a) Water drops on a lotus leaf.             73
  • 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°.              74
  • Figure 17: Contact angle on superhydrophobic coated surface.   75
  • Figure 18: Self-cleaning nanocellulose dishware. 77
  • Figure 19: SLIPS repellent coatings.          78
  • Figure 20: Omniphobic coatings.                80
  • Figure 21: Graphair membrane coating. 84
  • Figure 22: Antimicrobial activity of Graphene oxide (GO).              86
  • Figure 23: Conductive graphene coatings for rotor blades.             88
  • Figure 24: Water permeation through a brick without (left) and with (right) “graphene paint” coating.       89
  • Figure 25: Graphene heat transfer coating.           90
  • Figure 26 Carbon nanotube cable coatings.           91
  • Figure 27 Formation of a protective CNT-based char layer during combustion of a CNT-modified coating. 92
  • Figure 28. Mechanism of antimicrobial activity of carbon nanotubes.       92
  • Figure 29: Fullerene schematic. 95
  • Figure 30: Hydrophobic easy-to-clean coating.    98
  • Figure 31: Anti-fogging nanocoatings on protective eyewear.       98
  • Figure 32: Silica nanoparticle anti-reflection coating on glass.       99
  • Figure 33 Anti-bacterials mechanism of silver nanoparticle coating.           100
  • Figure 34: Mechanism of photocatalysis on a surface treated with TiO2 nanoparticles.      103
  • Figure 35:  Schematic showing the self-cleaning phenomena on superhydrophilic surface.              104
  • Figure 36: Titanium dioxide-coated glass (left) and ordinary glass (right). 105
  • Figure 37:  Self-Cleaning mechanism utilizing photooxidation.      106
  • Figure 38: Schematic of photocatalytic air purifying pavement.   107
  • Figure 39: Schematic of photocatalytic indoor air purification filter.           108
  • Figure 40: Schematic of photocatalytic water purification.              109
  • Figure 41. Schematic of antibacterial activity of ZnO NPs.               114
  • Figure 42: Types of nanocellulose.            121
  • Figure 43: CNF gel.           122
  • Figure 44: TEM image of cellulose nanocrystals. 124
  • Figure 45: Extracting CNC from trees.      125
  • Figure 46: An iridescent biomimetic cellulose multilayer film remains after water that contains cellulose nanocrystals evaporates.        125
  • Figure 47: CNC slurry.     126
  • 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).               129
  • Figure 49. Anti-fingerprint nanocoating on glass. 132
  • Figure 50: Schematic of anti-fingerprint nanocoatings.    136
  • Figure 51: Toray anti-fingerprint film (left) and an existing lipophilic film (right).   136
  • Figure 52: Types of anti-fingerprint coatings applied to touchscreens.      137
  • Figure 53: Anti-fingerprint nanocoatings applications.      137
  • Figure 54: Revenues for anti-fingerprint nanocoatings, 2019-2031, adjusted for COVID-19 related demand, conservative and high estimates (millions USD). 139
  • Figure 55. Schematic of anti-viral coating using nano-actives for inactivation of any adhered virus on the surfaces.                145
  • Figure 56. Nano-coated self-cleaning touchscreen.           153
  • Figure 57: Revenues for Anti-microbial and anti-viral nanocoatings, 2019-2031, adjusted for COVID-19 related demand, conservative and high estimates (millions USD).              154
  • Figure 58: Nanovate CoP coating.              161
  • Figure 59: 2000 hour salt fog results for Teslan nanocoatings.      161
  • Figure 60: AnCatt proprietary polyaniline nanodispersion and coating structure.  162
  • Figure 61: Hybrid self-healing sol-gel coating.      162
  • Figure 62: Schematic of anti-corrosion via superhydrophobic surface.      162
  • Figure 63: Potential addressable market for anti-corrosion nanocoatings by 2030.               165
  • Figure 64: Revenues for anti-corrosion nanocoatings, 2019-2031, adjusted for COVID-19 related demand, conservative and high estimates (millions USD).           166
  • Figure 65: Revenues for abrasion and wear resistant nanocoatings, 2019-2031, adjusted for COVID-19 related demand, conservative and high estimates (millions USD). 173
  • Figure 66: Nanocomposite oxygen barrier schematic.      177
  • Figure 67:  Schematic of barrier nanoparticles deposited on flexible substrates.   178
  • Figure 68: Revenues for barrier nanocoatings, 2019-2031, adjusted for COVID-19 related demand, conservative and high estimates (millions USD).    180
  • Figure 69: Anti-fouling treatment for heat-exchangers.   185
  • Figure 70: Removal of graffiti after application of nanocoating.    185
  • Figure 71: Potential addressable market for anti-fouling and easy-to-clean nanocoatings by 2030.                186
  • Figure 72: Revenues for anti-fouling and easy-to-clean nanocoatings, 2019-2031, adjusted for COVID-19 related demand, conservative and high estimates (millions USD).              187
  • Figure 73: Self-cleaning superhydrophobic coating schematic.      192
  • Figure 74: Potential addressable market for self-cleaning (bionic) nanocoatings by 2030.  194
  • Figure 75. Revenues for self-cleaning (bionic) nanocoatings, 2019-2031, US$, adjusted for COVID-19 related demand, conservative and high estimates               195
  • Figure 76.  Schematic showing the self-cleaning phenomena on superhydrophilic surface.              200
  • Figure 77: Schematic of photocatalytic air purifying pavement.   201
  • Figure 78:  Self-Cleaning mechanism utilizing photooxidation.      202
  • Figure 79: Photocatalytic oxidation (PCO) air filter.            203
  • Figure 80: Schematic of photocatalytic water purification.              203
  • Figure 81: Tokyo Station GranRoof. The titanium dioxide coating ensures long-lasting whiteness. 205
  • Figure 82: Potential addressable market for self-cleaning (photocatalytic) nanocoatings by 2030.  206
  • Figure 83. Revenues for self-cleaning (photocatalytic) nanocoatings, 2019-2031, US$, adjusted for COVID-19 related demand, conservative and high estimates             206
  • Figure 84: Markets for UV-resistant nanocoatings, %, 2019.           213
  • Figure 85: Potential addressable market for UV-resistant nanocoatings.  214
  • Figure 86: Revenues for UV-resistant nanocoatings, 2019-2031, adjusted for COVID-19 related demand, conservative and high estimates (millions USD).           215
  • Figure 87: Flame retardant nanocoating.               219
  • Figure 88: Markets for thermal barrier and flame retardant nanocoatings, %, 2019.            220
  • Figure 89: Potential addressable market for thermal barrier and flame retardant nanocoatings by 2030.    221
  • Figure 90: Revenues for thermal barrier and flame retardant  nanocoatings, 2019-2031, adjusted for COVID-19 related demand, conservative and high estimates (millions USD).              222
  • Figure 91: Nanocoated surface in comparison to existing surfaces.             226
  • Figure 92: NANOMYTE® SuperAi, a Durable Anti-ice Coating.         227
  • Figure 93: SLIPS coating schematic.          227
  • Figure 94: Carbon nanotube based anti-icing/de-icing device.      228
  • Figure 95: CNT anti-icing nanocoating.    228
  • Figure 96: Potential addressable market for anti-icing and de-icing nanocoatings by 2030.               230
  • Figure 97: Revenues for anti-icing and de-icing nanocoatings, 2019-2031, adjusted for COVID-19 related demand, conservative and high estimates (millions USD). 230
  • Figure 98: Schematic of AR coating utilizing nanoporous coating. 235
  • Figure 99: Demo solar panels coated with nanocoatings. 235
  • Figure 100: Revenues for anti-reflective nanocoatings, 2019-2031, adjusted for COVID-19 related demand, conservative and high estimates (millions USD). 236
  • Figure 101: 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.  239
  • Figure 102: Stages of self-healing mechanism.    239
  • Figure 103: Self-healing mechanism in vascular self-healing systems.        240
  • Figure 104: Comparison of self-healing systems. 241
  • Figure 105: Self-healing coating on glass.               245
  • Figure 106: Schematic of the self-healing concept using microcapsules with a healing agent inside.             247
  • Figure 107: Revenues for self-healing nanocoatings, 2019-2031, adjusted for COVID-19 related demand, conservative and high estimates (millions USD).           251
  • Figure 108: The global market for self-healing coatings and materials to 2027, Millions USD, by market, conservative estimate.             252
  • Figure 109: The global market for self-healing coatings and materials to 2027, Millions USD, by market, high estimate.                253
  • Figure 110 Nanocoatings market by end user sector, 2010-2031, USD.     257
  • Figure 111: Nanocoatings in the aerospace industry, by nanocoatings type %, 2019.           262
  • Figure 112: Potential addressable market for nanocoatings in aerospace by 2030.               263
  • Figure 113: Revenues for nanocoatings in the aerospace industry, 2010-2031, US$.            264
  • Figure 114: Nanocoatings in the automotive industry, by coatings type % 2019.    273
  • Figure 115: Potential addressable market for nanocoatings in the automotive sector by 2030.        273
  • Figure 116: Revenues for nanocoatings in the automotive industry, 2010-2031, US$.         275
  • Figure 117: Mechanism of photocatalytic NOx oxidation on active concrete road.                282
  • Figure 118: Jubilee Church in Rome, the outside coated with nano photocatalytic TiO2 coatings.  282
  • Figure 119: FN® photocatalytic coating, applied in the Project of Ecological Sound Barrier, in Prague.         283
  • Figure 120 Smart window film coatings based on indium tin oxide nanocrystals.  284
  • Figure 121: Nanocoatings in construction, architecture and exterior protection, by coatings type %, 2018.                285
  • Figure 122: Potential addressable market for nanocoatings in the construction, architecture and exterior coatings sector by 2030.  286
  • Figure 123: Revenues for nanocoatings in construction, architecture and exterior protection, 2010-2031, US$.      287
  • Figure 124: Reflection of light on anti-glare coating for display.    294
  • Figure 125: Nanocoating submerged in water.    294
  • Figure 126: Phone coated in WaterBlock submerged in water tank.           295
  • Figure 127: Self-healing patent schematic.            298
  • Figure 128: Self-healing glass developed at the University of Tokyo.          298
  • Figure 129: Royole flexible display.           299
  • Figure 130: Potential addressable market for nanocoatings in electronics by 2030.              300
  • Figure 131: Revenues for nanocoatings in electronics, 2010-2031, US$, conservative and optimistic estimates.      301
  • Figure 132: Nanocoatings in household care, sanitary and indoor air quality, by coatings type %, 2018.      308
  • Figure 133: Potential addressable market for nanocoatings in household care, sanitary and indoor air filtration by 2030.     308
  • Figure 134: Revenues for nanocoatings in household care, sanitary and indoor air quality, 2010-2031, US$.             310
  • Figure 135: Potential addressable market for nanocoatings in the marine sector by 2030.                 315
  • Figure 136: Revenues for nanocoatings in the marine sector, 2010-2031, US$.      316
  • Figure 137: Anti-bacertial sol-gel nanoparticle silver coating.        322
  • Figure 138: Nanocoatings in medical and healthcare, by coatings type %, 2019.    325
  • Figure 139: Potential addressable market for nanocoatings in medical & healthcare by 2030.         325
  • Figure 140: Revenues for nanocoatings in medical and healthcare, 2010-2031, US$.           327
  • Figure 141: Nanocoatings in military and defence, by nanocoatings type %, 2018.                333
  • Figure 142: Potential addressable market nanocoatings in military and defence by 2030.  334
  • Figure 143: Revenues for nanocoatings in military and defence, 2010-2031, US$. 335
  • Figure 144: Nanocomposite oxygen barrier schematic.    340
  • Figure 145: Oso fresh food packaging incorporating antimicrobial silver.  340
  • Figure 146: Potential addressable market for nanocoatings in packaging by 2030.                342
  • Figure 147: Revenues for nanocoatings in packaging, 2010-2031, US$.      344
  • Figure 148: Omniphobic-coated fabric.   347
  • Figure 149: Work out shirt incorporating ECG sensors, flexible lights and heating elements.           353
  • Figure 150: Nanocoatings in textiles and apparel, by coatings type %, 2018.            355
  • Figure 151: Potential addressable market for nanocoatings in textiles and apparel by 2030.             355
  • Figure 152: Revenues for nanocoatings in textiles and apparel, 2010-2031, US$.  357
  • Figure 153: Self-Cleaning Hydrophobic Coatings on solar panels. 362
  • Figure 154: Znshine Graphene Series solar coatings.         362
  • Figure 155: Nanocoating for solar panels.              362
  • Figure 156: Nanocoatings in renewable energy, by coatings type %.          364
  • Figure 157: Potential addressable market for nanocoatings in renewable energy by 2030.                365
  • Figure 158: Revenues for nanocoatings in energy, 2010-2031, US$.            366
  • Figure 159: Oil-Repellent self-healing nanocoatings.         372
  • Figure 160: Nanocoatings in oil and gas exploration, by coatings type %. 374
  • Figure 161: Potential addressable market for nanocoatings in oil and gas exploration by 2030.       374
  • Figure 162: Revenues for nanocoatings in oil and gas exploration, 2010-2031, US$.            376
  • Figure 163: Revenues for nanocoatings in Tools and manufacturing, 2010-2031, US$.        380
  • Figure 164: Security tag developed by Nanotech Security.             382
  • Figure 165: Revenues for nanocoatings in anti-counterfeiting, 2010-2031, US$.    384
  • Figure 166. Lab tests on DSP coatings.     447
  • Figure 167: Self-healing mechanism of SmartCorr coating.             455
  • Figure 168. GrapheneCA anti-bacterial and anti-viral coating.       470
  • Figure 169. Microlyte® Matrix bandage for surgical wounds.         488
  • Figure 170. Self-cleaning nanocoating applied to face masks.        495
  • Figure 171: Carbon nanotube paint product.        505
  • Figure 172. NanoSeptic surfaces.              543
  • Figure 173. NascNanoTechnology personnel shown applying MEDICOAT to airport luggage carts. 550
  • Figure 174: Nippon Paper Industries’ adult diapers.          558
  • Figure 175: 2 wt.% CNF suspension.       603
  • Figure 176. BiNFi-s Dry Powder. 604
  • Figure 177. BiNFi-s Dry Powder and Propylene (PP) Complex Pellet.          604
  • Figure 178: Silk nanofiber (right) and cocoon of raw material.       605
  • Figure 179. Applications of Titanystar.     632

 

 

 

 

 

 

 

 

The Global Market for Nanostructured Coatings, Films and Surfaces (Nanocoatings) 2021
The Global Market for Nanostructured Coatings, Films and Surfaces (Nanocoatings) 2021
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