Global Anti-Microbial, Anti-Viral, and Anti-Fungal Nanocoatings Market Report 2021: Construction, Household Care, Sanitary and Indoor Air Quality, Medical & Healthcare, Textiles And Apparel, Packaging

Dublin, Feb. 02, 2021 (GLOBE NEWSWIRE) -- The "The Global Market for Anti-Microbial, Anti-Viral, and Anti-Fungal Nanocoatings 2021" report has been added to ResearchAndMarkets.com's offering.

Nanocoatings can demonstrate up to 99.9998% effectiveness against bacteria, formaldehyde, mold and viruses, and are up to 1000 times more efficient than previous technologies available on the market.

They can work on multiple levels at the same time: anti-microbial, anti-viral, and anti-fungal, self-cleaning and anti-corrosion. Nanocoatings companies have partnering with global manufacturers and cities to develop anti-viral facemasks, hazard suits and easily applied surface coatings.

Their use makes it possible to provide enhanced anti-microbial, anti-viral, mold-reducing and TVOC degrading processes, that are non-toxic and environmentally friendly, allowing for exceptional hygiene standards in all areas of work and life. As a result, it is possible to create a healthier living and working environment and to offer holistic solutions to people with a diminished immune system. Nano-based surface coatings prevent the spread of bacteria, fungi and viruses via infected surfaces of so-called high-traffic objects, such as door and window handles in public places, hospitals, public buildings, schools, elderly homes etc.

Anti-microbial, Anti-viral, and Anti-fungal Nanocoatings are available in various material compositions, for healthcare and household surfaces, for indoor and outdoor applications, to protect against corrosion and mildew, as well as for water and air purification. Nanocoatings also reduce surface contamination, are self-cleaning, water-repellent and odor-inhibiting, reducing cleaning and maintenance

Anti-microbial, Anti-viral, and Anti-fungal Nanocoatings can be applied by spraying or dipping and adhere to various surfaces such as glass, metals and various alloys, copper and stainless steel, marble and stone slabs, ceramics and tiles, textiles and plastics.

Nanoparticles of different materials such as metal nanoparticles, carbon nanotubes, metal oxide nanoparticles, and graphene-based materials have demonstrated enhanced anti-microbial and anti-viral activity. The use of inorganic nanomaterials when compared with organic anti-microbial agents is also desirable due to their stability, robustness, and long shelf life. At high temperatures/pressures organic antimicrobial materials are found to be less stable compared to inorganic antimicrobial agents. The various antimicrobial mechanisms of nanomaterials are mostly attributed to their high specific surface area-to-volume ratios, and their distinctive physico-chemical properties.

Report contents include:

• Size in value for the Anti-microbial, Anti-viral, and Anti-fungal Nanocoatings market, and growth rate during the forecast period, 2017-2030. Historical figures are also provided, from 2010.
• Anti-microbial, Anti-viral, and Anti-fungal Nanocoatings market segments analysis.
• Size in value for the End-user industries for nanocoatings and growth during the forecast period.
• Market drivers, trends and challenges, by end user markets.
• Market outlook for 2020-2021.
• In-depth market assessment of opportunities for nanocoatings, by type and markets.
• Anti-microbial, Anti-viral, and Anti-fungal Nanocoatings applications.
• In-depth analysis of Anti-microbial, Anti-viral, and Anti-fungal surface treatments, coatings and films.
• In-depth analysis of antibacterial and antiviral treatment for antibacterial mask, filter, gloves, clothes and devices.
• Revenue scenarios for COVID-19 response.
• 146 company profiles including products, technology base, target markets and contact details.

Anti-microbial, anti-viral and anti-fungal nanocoatings applications include, but are not limited to:

• Medical facilities and laboratories
• Medical equipment;
• Fabrics and clothing like face masks;
• Hospital furniture;
• Hotels and other public spaces;
• Window glass;
• Pharmaceutical labs;
• Packaging;
• Food packaging areas and restaurants;
• Food processing equipment;
• Transportation, air ducts and air ventilation systems;
• Appliances;
• Sporting and exercise equipment;
• Containers;
• Aircraft interiors and buildings;
• Cruise lines and other marine vessels;
• Restroom accessories;
• Shower enclosures;
• Handrails;
• Schools and childcare facilities;
• Playgrounds.

Key Topics Covered:

1 Introduction
1.1 Aims And Objectives Of The Study
1.2 Market Definition
1.2.1 Properties Of Nanomaterials
1.2.2 Categorization

2 Research Methodology

3 Executive Summary
3.1 High Performance Coatings
3.2 Nanocoatings
3.3 Anti-Viral Nanoparticles And Nanocoatings
3.3.1.1 Reusable Personal Protective Equipment (Ppe)
3.3.1.2 Wipe On Coatings
3.3.1.3 Facemask Coatings
3.3.1.4 Long-Term Mitigation Of Surface Contamination With Nanocoatings
3.4 Market Drivers And Trends
3.5 Global Market Size And Opportunity To 2030
3.5.1 End User Market For Nanocoatings
3.5.2 Global Revenues For Nanocoatings 2010-2030
3.5.3 Global Revenues For Nanocoatings, By Market
3.5.3.1 The Market In 2019
3.5.3.2 The Market In 2020
3.5.3.3 The Market In 2030
3.5.4 Regional Demand For Nanocoatings
3.5.5 Demand For Antimicrobial And Anti-Viral Nanocoatings Post Covid-19 Pandemic
3.6 Market And Technical Challenges
3.7 Toxicity And Environmental Considerations
3.8 Impact Of Covid-19 On The Market
3.9 Market Outlook In 2021

4 Nanocoatings Technical Analysis
4.1 Properties Of Nanocoatings
4.2 Benefits Of Using Nanocoatings
4.3 Production And Synthesis Methods

5 Nanomaterials Used In Anti-Microbial, Anti-Viral And Anti-Fungal Nanocoatings
5.1 Metallic-Based Coatings
5.2 Polymer-Based Coatings
5.3 Antimicrobial Nanomaterials
5.4 Graphene
5.5 Silicon Dioxide/Silica Nanoparticles
5.6 Silver Nanoparticles (Agnps)
5.7 Titanium Dioxide Nanoparticles
5.8 Zinc Oxide Nanoparticles (Zno-Nps)
5.9 Nanoceullose (Cellulose Nanofibers And Cellulose Nanocrystals)
5.10 Carbon Nanotubes
5.11 Fullerenes
5.12 Copper Oxide Nanoparticles
5.13 Gold Nanoparticles (Aunps)
5.14 Iron Oxide Nanoparticles
5.15 Magnesium Oxide Nanoparticles
5.16 Nitric Oxide Nanoparticles
5.17 Aluminium Oxide Nanoparticles
5.18 Organic Nanoparticles
5.19 Chitosan Nanoparticles
5.20 Hydrophobic And Hydrophilic Coatings And Surfaces
5.21 Superhydrophobic Coatings And Surfaces
5.22 Oleophobic And Omniphobic Coatings And Surfaces

6 Anti-Microbial And Anti-Viral Nanocoatings Market Structure

7 Market Analysis For Antimicrobial, Antiviral And Antifungal Nanocoatings
7.1 Anti-Microbial, Anti-Viral And Anti-Fungal Nanocoatings
7.2 Anti-Fouling And Easy-To-Clean Nanocoatings
7.3 Self-Cleaning (Bionic) Nanocoatings
7.4 Self-Cleaning (Photocatalytic) Nanocoatings

8 Market Segment Analysis, By End User Market
8.1 Buildings And Construction
8.2 Household Care, Sanitary And Indoor Air Quality
8.3 Medical & Healthcare
8.4 Textiles And Apparel
8.5 Packaging

9 Antimicrobial, Antiviral And Antifungal Nanocoatings Companies

10 Recent Research In Academia

11 References

Companies Mentioned

• Advanced Materials-JTJ s.r.o.
• Bio-Fence
• Bio-Gate AG
• Covalon Technologies Ltd.
• EnvisionSQ
• GrapheneCA
• Green Earth Nano Science
• Halomine
• HeiQ Materials
• Integricote
• Kastus
• myNano
• Nano Came Co. Ltd.
• NanoTouch Materials, LLC
• NitroPep
• OrganoClick
• Reactive Surfaces
• SDST

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