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Antimicrobial Technology Market - Global Antimicrobial Technology Industry Analysis, Size, Share, Growth, Trends, Regional Outlook, and Forecast 2023-2030

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    Report

  • 275 Pages
  • August 2023
  • Region: Global
  • Fairfield Market Research
  • ID: 5878108

A Booming Frontier in Infection Control and Hygiene

The global antimicrobial technology market is poised for remarkable growth, with an anticipated Compound Annual Growth Rate (CAGR) of approximately 10% between 2023 and 2030. By the close of 2030, the market is projected to achieve a substantial valuation, nearing US$10 billion. Situated within the broader healthcare and technology sectors, the antimicrobial technology market encompasses goods, components, and technologies designed to combat the transmission of viruses and germs. These innovations are instrumental in preserving public health, mitigating healthcare-associated illnesses, and maintaining clean environments.

A Shield Against Microorganisms

Innovation Takes Center Stage

The antimicrobial technology market is dedicated to the development and application of solutions aimed at preventing the growth and dissemination of microorganisms, including viruses, bacteria, fungi, and algae. This segment has witnessed substantial growth and innovation, particularly during pandemics and outbreaks, where the need for efficient infection control techniques is paramount. Antimicrobial technologies are indispensable for maintaining cleanliness in both public and private settings, furthering the need for eco-friendly solutions with minimal environmental impact.

Key Highlights from the Report

  • The global antimicrobial technology market is poised to exhibit a robust growth rate of approximately 10% CAGR from 2023 to 2030.
  • Rising consumer awareness is driving the demand for antimicrobial technology across various sectors.
  • Silver coating material remains the preferred choice in the antimicrobial technology market.
  • The healthcare segment is expected to maintain a dominant revenue share within the market.
  • Asia Pacific is set to continue leading the market, while North America will experience the most robust growth through 2030.

Driving Growth Factors

The Power of Consumer Awareness

Increasing consumer awareness is a central driver of the antiviral and antimicrobial technology market. With growing attention to hygiene and health-related issues, consumers seek products and technologies that reduce their risk of infection and safeguard their well-being. This heightened awareness has led to a surge in demand for products across numerous industries, including antimicrobial textiles, home goods, personal care items, and consumer electronics. The significance of antiviral and antimicrobial technologies as preventive measures against disease transmission is particularly evident in offices, homes, public transportation, and retail settings. Recent events, such as the COVID-19 pandemic, have underscored the importance of infection control and cleanliness, further boosting demand.

Expanding Industrial Applications

The expanding industrial applications of antimicrobial technologies are a significant growth catalyst. Industries are increasingly incorporating antiviral and antimicrobial technologies into their processes, recognizing their critical role in infection control, hygiene, and maintaining health standards.

Hospitals, clinics, and medical facilities are prominent consumers of antimicrobial technologies, driven by the need for rigorous infection control measures to combat healthcare-associated infections (HAIs) and protect patients and healthcare staff. The food processing sector relies on antimicrobial technologies to prevent bacterial contamination, spoilage, and foodborne illnesses. These technologies find application in equipment, food processing surfaces, and packaging, ensuring food safety and extending shelf life. In agriculture, antimicrobial technologies help reduce crop loss and prevent plant diseases, with applications in additives, treatments, and coatings.

Challenges to Growth

Price Pressures and Stringent Certification

Despite their potential benefits, the production and research and development of advanced antiviral and antimicrobial technologies can be expensive. The associated costs of clinical trials can further elevate end-user prices, limiting accessibility, particularly in resource-constrained environments. High production costs may deter consumers from purchasing antimicrobial technology-based products, especially when cost-effectiveness is a priority, such as during economic downturns or in price-sensitive markets. Companies may also face pressure to maintain competitive prices in fiercely contested markets, potentially impacting market share. Antimicrobial technology must undergo rigorous testing and obtain certifications to validate its effectiveness and safety. These certification and testing procedures can be costly, raising the overall expense of bringing products to market. High-priced antimicrobial technologies may face scrutiny from businesses and consumers focused on eco-friendly alternatives, influencing purchase decisions.

Key Market Segments

Silver Reigns as the Preferred Coating Material

The silver segment is anticipated to dominate the global antimicrobial technology market during the forecast period. Silver has a long history of use as an antimicrobial agent and continues to be a cornerstone of current antiviral and antimicrobial technologies. Silver's efficacy in releasing silver ions (Ag+) when exposed to moisture or pathogens, such as bacteria and viruses, grants it strong antibacterial properties. These silver ions disrupt the biological functions of pathogens, inhibiting their growth and replication.

Silver nanoparticles are widely employed in antimicrobial technologies due to their small size and substantial surface area. They are used in textiles, paints, and coatings, providing durable and robust antimicrobial properties. In consumer electronics, silver serves as an antibacterial component on device surfaces, reducing the risk of germ transmission through frequent touch.

Food Sector Drives Demand

The food segment is poised to experience the highest growth within the antimicrobial technology market. Antiviral and antimicrobial technologies play a pivotal role in the food industry, addressing contamination issues, ensuring food safety, and extending the shelf life of products. These technologies are deployed at various stages of food processing and packaging to prevent the growth and spread of pathogenic microorganisms. Packaging materials that come into contact with food are potential sources of contamination, prompting the use of antimicrobial technologies to create barriers against bacteria and viruses, preserving the safety of food items.

Fresh produce, including fruits and vegetables, undergo antimicrobial treatments such as washes and sprays to reduce surface microorganisms, ensuring product quality and safety throughout the supply chain. In seafood processing, antimicrobial technologies are employed to inhibit bacterial and pathogenic growth, maintaining the freshness and safety of products. The distribution of perishable goods in containers and vehicles treated with antimicrobial coatings or treatments ensures a clean environment, free from contamination.

Regional Growth Prospects

Asia Pacific Dominates; North America Accelerates

Asia Pacific is set to maintain its stronghold in the antimicrobial technology market during the forecast period. Significant investments in healthcare infrastructure and technology from public and private sources are contributing to the widespread adoption of antimicrobial coatings and treatments. Hospitals, clinics, and medical equipment are increasingly leveraging these technologies to enhance infection control practices. Advancements in nanotechnology within the Asia Pacific region are driving the development of more precise and effective antimicrobial solutions. Nanoparticle-based coatings and materials with improved antibacterial properties are gaining popularity. The demand for antimicrobial fabrics is on the rise, with applications spanning domestic textiles, athletic apparel, and healthcare settings to inhibit bacterial growth and uphold hygiene standards. Rapid urbanization, coupled with smart city initiatives, presents opportunities to integrate antimicrobial technology into public spaces, infrastructure, and transportation systems, enhancing overall hygiene and safety. The prevalence of e-commerce platforms and online sales channels further extends the reach of antimicrobial products and technology in India.

North America is positioned for rapid growth in the antimicrobial technology market. The healthcare industry in the United States, in particular, continues to drive demand for these technologies, with hospitals, clinics, and long-term care facilities seeking robust infection control solutions. Substantial R&D investments by North American companies are paving the way for groundbreaking antiviral and antibacterial technologies, leading to the launch of innovative products.
The integration of antimicrobial technologies with smart surfaces and the Internet of Things (IoT) is gaining momentum in the United States, enabling real-time monitoring and data-driven infection control strategies. Educational institutions are increasingly adopting antimicrobial products to maintain hygienic and safe learning environments.

Competitive Landscape

Leading Innovators in Antimicrobial Technology

Prominent players at the forefront of the antimicrobial technology market include Sherwin-Williams, Applied Silver, AkzoNobel N.V., Copptech, Dyphox, Goldshield Technologies, Inhibit Coatings, Innovotech, Nanosafe Solutions, Parx Materials, Quick-Med Technologies, Sciessent, SINTX Technologies, and Touchpoint Science. These companies are actively contributing to the development of antimicrobial technologies, expanding their applications, and advancing infection control technologies.

Table of Contents

1. Executive Summary
1.1. Global Antimicrobial Technology Market Snapshot
1.2. Future Projections
1.3. Key Market Trends
1.4. Regional Snapshot, by Value, 2022
1.5. Analyst Recommendations
2. Market Overview
2.1. Market Definitions and Segmentations
2.2. Market Dynamics
2.2.1. Drivers
2.2.2. Restraints
2.2.3. Market Opportunities
2.3. Porter’s Five Forces Analysis
2.4. Covid-19 Impact Analysis
2.4.1. Supply
2.4.2. Demand
2.5. Impact of Ukraine-Russia Conflict
2.6. Economic Overview
2.6.1. World Economic Projections
2.7. PESTLE Analysis
3. Global Antimicrobial Technology Market Outlook, 2018 - 2030
3.1. Global Antimicrobial Technology Market Outlook, by Coating Material, Value (US$ Bn), 2018 - 2030
3.1.1. Key Highlights
3.1.1.1. Silver
3.1.1.2. Copper
3.1.1.3. Zinc
3.1.1.4. Silane quaternary ammonium compounds
3.1.1.5. Other
3.2. Global Antimicrobial Technology Market Outlook, by Application, Value (US$ Bn), 2018 - 2030
3.2.1. Key Highlights
3.2.1.1. Food
3.2.1.2. Agriculture
3.2.1.3. High touch surfaces
3.2.1.4. Construction
3.2.1.5. Automotive
3.2.1.6. Healthcare
3.2.1.7. Fabrics and textiles
3.2.1.8. Other
3.3. Global Antimicrobial Technology Market Outlook, by Region, Value (US$ Bn), 2018 - 2030
3.3.1. Key Highlights
3.3.1.1. North America
3.3.1.2. Europe
3.3.1.3. Asia Pacific
3.3.1.4. Latin America
3.3.1.5. Middle East & Africa
4. North America Antimicrobial Technology Market Outlook, 2018 - 2030
4.1. North America Antimicrobial Technology Market Outlook, by Coating Material, Value (US$ Bn), 2018 - 2030
4.1.1. Key Highlights
4.1.1.1. Silver
4.1.1.2. Copper
4.1.1.3. Zinc
4.1.1.4. Silane quaternary ammonium compounds
4.1.1.5. Other Technologies
4.2. North America Antimicrobial Technology Market Outlook, by Application, Value (US$ Bn), 2018 - 2030
4.2.1. Key Highlights
4.2.1.1. Food
4.2.1.2. Agriculture
4.2.1.3. High touch surfaces
4.2.1.4. Construction
4.2.1.5. Automotive
4.2.1.6. Healthcare
4.2.1.7. Fabrics and textiles
4.2.1.8. Other
4.2.2. Market Attractiveness Analysis
4.3. North America Antimicrobial Technology Market Outlook, by Country, Value (US$ Bn), 2018 - 2030
4.3.1. Key Highlights
4.3.1.1. U.S. Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
4.3.1.2. U.S. Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
4.3.1.3. Canada Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
4.3.1.4. Canada Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
4.3.2. BPS Analysis/Market Attractiveness Analysis
5. Europe Antimicrobial Technology Market Outlook, 2018 - 2030
5.1. Europe Antimicrobial Technology Market Outlook, by Coating Material, Value (US$ Bn), 2018 - 2030
5.1.1. Key Highlights
5.1.1.1. Silver
5.1.1.2. Copper
5.1.1.3. Zinc
5.1.1.4. Silane quaternary ammonium compounds
5.1.1.5. Other Technologies
5.2. Europe Antimicrobial Technology Market Outlook, by Application, Value (US$ Bn), 2018 - 2030
5.2.1. Key Highlights
5.2.1.1. Food
5.2.1.2. Agriculture
5.2.1.3. High touch surfaces
5.2.1.4. Construction
5.2.1.5. Automotive
5.2.1.6. Healthcare
5.2.1.7. Fabrics and textiles
5.2.1.8. Other
5.2.2. BPS Analysis/Market Attractiveness Analysis
5.3. Europe Antimicrobial Technology Market Outlook, by Country, Value (US$ Bn), 2018 - 2030
5.3.1. Key Highlights
5.3.1.1. Germany Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
5.3.1.2. Germany Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
5.3.1.3. U.K. Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
5.3.1.4. U.K. Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
5.3.1.5. France Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
5.3.1.6. France Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
5.3.1.7. Italy Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
5.3.1.8. Italy Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
5.3.1.9. Turkey Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
5.3.1.10. Turkey Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
5.3.1.11. Russia Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
5.3.1.12. Russia Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
5.3.1.13. Rest of Europe Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
5.3.1.14. Rest of Europe Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
5.3.2. BPS Analysis/Market Attractiveness Analysis
6. Asia Pacific Antimicrobial Technology Market Outlook, 2018 - 2030
6.1. Asia Pacific Antimicrobial Technology Market Outlook, by Coating Material, Value (US$ Bn), 2018 - 2030
6.1.1. Key Highlights
6.1.1.1. Silver
6.1.1.2. Copper
6.1.1.3. Zinc
6.1.1.4. Silane quaternary ammonium compounds
6.1.1.5. Other Technologies
6.2. Asia Pacific Antimicrobial Technology Market Outlook, by Application, Value (US$ Bn), 2018 - 2030
6.2.1. Key Highlights
6.2.1.1. Food
6.2.1.2. Agriculture
6.2.1.3. High touch surfaces
6.2.1.4. Construction
6.2.1.5. Automotive
6.2.1.6. Healthcare
6.2.1.7. Fabrics and textiles
6.2.1.8. Other
6.2.2. BPS Analysis/Market Attractiveness Analysis
6.3. Asia Pacific Antimicrobial Technology Market Outlook, by Country, Value (US$ Bn), 2018 - 2030
6.3.1. Key Highlights
6.3.1.1. China Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
6.3.1.2. China Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
6.3.1.3. Japan Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
6.3.1.4. Japan Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
6.3.1.5. South Korea Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
6.3.1.6. South Korea Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
6.3.1.7. India Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
6.3.1.8. India Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
6.3.1.9. Southeast Asia Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
6.3.1.10. Southeast Asia Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
6.3.1.11. Rest of Asia Pacific Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
6.3.1.12. Rest of Asia Pacific Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
6.3.2. BPS Analysis/Market Attractiveness Analysis
7. Latin America Antimicrobial Technology Market Outlook, 2018 - 2030
7.1. Latin America Antimicrobial Technology Market Outlook, by Coating Material, Value (US$ Bn), 2018 - 2030
7.1.1. Key Highlights
7.1.1.1. Silver
7.1.1.2. Copper
7.1.1.3. Zinc
7.1.1.4. Silane quaternary ammonium compounds
7.1.1.5. Other Technologies
7.2. Latin America Antimicrobial Technology Market Outlook, by Application, Value (US$ Bn), 2018 - 2030
7.2.1. Key Highlights
7.2.1.1. Food
7.2.1.2. Agriculture
7.2.1.3. High touch surfaces
7.2.1.4. Construction
7.2.1.5. Automotive
7.2.1.6. Healthcare
7.2.1.7. Fabrics and textiles
7.2.1.8. Other
7.2.2. BPS Analysis/Market Attractiveness Analysis
7.3. Latin America Antimicrobial Technology Market Outlook, by Country, Value (US$ Bn), 2018 - 2030
7.3.1. Key Highlights
7.3.1.1. Brazil Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
7.3.1.2. Brazil Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
7.3.1.3. Mexico Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
7.3.1.4. Mexico Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
7.3.1.5. Argentina Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
7.3.1.6. Argentina Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
7.3.1.7. Rest of Latin America Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
7.3.1.8. Rest of Latin America Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
7.3.2. BPS Analysis/Market Attractiveness Analysis
8. Middle East & Africa Antimicrobial Technology Market Outlook, 2018 - 2030
8.1. Middle East & Africa Antimicrobial Technology Market Outlook, by Coating Material, Value (US$ Bn), 2018 - 2030
8.1.1. Key Highlights
8.1.1.1. Silver
8.1.1.2. Copper
8.1.1.3. Zinc
8.1.1.4. Silane quaternary ammonium compounds
8.1.1.5. Other Technologies
8.2. Middle East & Africa Antimicrobial Technology Market Outlook, by Application, Value (US$ Bn), 2018 - 2030
8.2.1. Key Highlights
8.2.1.1. Food
8.2.1.2. Agriculture
8.2.1.3. High touch surfaces
8.2.1.4. Construction
8.2.1.5. Automotive
8.2.1.6. Healthcare
8.2.1.7. Fabrics and textiles
8.2.1.8. Other
8.2.2. BPS Analysis/Market Attractiveness Analysis
8.3. Middle East & Africa Antimicrobial Technology Market Outlook, by Country, Value (US$ Bn), 2018 - 2030
8.3.1. Key Highlights
8.3.1.1. GCC Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
8.3.1.2. GCC Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
8.3.1.3. South Africa Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
8.3.1.4. South Africa Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
8.3.1.5. Egypt Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
8.3.1.6. Egypt Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
8.3.1.7. Nigeria Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
8.3.1.8. Nigeria Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
8.3.1.9. Rest of Middle East & Africa Antimicrobial Technology Market by Coating Material, Value (US$ Bn), 2018 - 2030
8.3.1.10. Rest of Middle East & Africa Antimicrobial Technology Market Application, Value (US$ Bn), 2018 - 2030
8.3.2. BPS Analysis/Market Attractiveness Analysis
9. Competitive Landscape
9.1. Manufacturer vs Technology Heat Map
9.2. Company Market Share Analysis, 2022
9.3. Competitive Dashboard
9.4. Company Profiles
9.4.1. Sherwin Williams
9.4.1.1. Company Overview
9.4.1.2. Product Portfolio
9.4.1.3. Financial Overview
9.4.1.4. Business Strategies and Development
9.4.2. Applied Silver, Inc.
9.4.2.1. Company Overview
9.4.2.2. Product Portfolio
9.4.2.3. Financial Overview
9.4.2.4. Business Strategies and Development
9.4.3. Akzo Nobel N.V.
9.4.3.1. Company Overview
9.4.3.2. Product Portfolio
9.4.3.3. Financial Overview
9.4.3.4. Business Strategies and Development
9.4.4. Copptech
9.4.4.1. Company Overview
9.4.4.2. Product Portfolio
9.4.4.3. Financial Overview
9.4.4.4. Business Strategies and Development
9.4.5. Dyphox
9.4.5.1. Company Overview
9.4.5.2. Product Portfolio
9.4.5.3. Financial Overview
9.4.5.4. Business Strategies and Development
9.4.6. Goldshield Technologies
9.4.6.1. Company Overview
9.4.6.2. Product Portfolio
9.4.6.3. Financial Overview
9.4.6.4. Business Strategies and Development
9.4.7. Inhibit Coatings
9.4.7.1. Company Overview
9.4.7.2. Product Portfolio
9.4.7.3. Financial Overview
9.4.7.4. Business Strategies and Development
9.4.8. Innovotech, Inc.
9.4.8.1. Company Overview
9.4.8.2. Product Portfolio
9.4.8.3. Financial Overview
9.4.8.4. Business Strategies and Development
9.4.9. Nanosafe Solutions Pvt. Ltd.
9.4.9.1. Company Overview
9.4.9.2. Product Portfolio
9.4.9.3. Business Strategies and Development
9.4.10. Parx Materials N.V.
9.4.10.1. Company Overview
9.4.10.2. Product Portfolio
9.4.10.3. Financial Overview
9.4.10.4. Business Strategies and Development
9.4.11. Quick-Med Technologies
9.4.11.1. Company Overview
9.4.11.2. Product Portfolio
9.4.11.3. Financial Overview
9.4.11.4. Business Strategies and Development
9.4.12. Sciessent
9.4.12.1. Company Overview
9.4.12.2. Product Portfolio
9.4.12.3. Financial Overview
9.4.12.4. Business Strategies and Development
9.4.13. SINTX technologies
9.4.13.1. Company Overview
9.4.13.2. Product Portfolio
9.4.13.3. Financial Overview
9.4.13.4. Business Strategies and Development
9.4.14. Touchpoint Science
9.4.14.1. Company Overview
9.4.14.2. Product Portfolio
9.4.14.3. Financial Overview
9.4.14.4. Business Strategies and Development
10. Appendix
10.1. Research Methodology
10.2. Report Assumptions
10.3. Acronyms and Abbreviations

Companies Mentioned

  • Applied Silver, Inc.
  • CleanCU
  • Copptech
  • Dyphox
  • Goldshield Technologies
  • Inhibit Coatings
  • Innovotech Inc.
  • Nanosafe Solutions Pvt. Ltd.
  • Parx Materials N.V.
  • Quick-Med Technologies, Inc.
  • Sciessent
  • SINTX Technologies Inc.
  • Touc

Methodology

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