The Aerospace Antimicrobial Coating Market size was estimated to be US$ 24 billion in 2019 and the expected CAGR during 2020 and 2030 is 5.5%. Prevalence of infectious diseases, increased number of commercial deliveries, reduced operational cost and increased investment in development of advanced coatings are the prime factors fueling the growth of the global aerospace antimicrobial coating market. The aerospace antimicrobial coating is used to prevent and reduce the spread of harmful microbes on the internal surfaces of an aircraft such as passenger lobby. It helps in reducing operational cost associated with disinfectant by prolonging the time between cleaning cycles.
Increased number of commercial aircraft deliveries to meet the increased demand from growing air passenger movement is anticipated to contribute towards the growth of the global aerospace antimicrobial coating market during the forecast period. The disinfestation process is time consuming and incur significant cost. This has resulted in increased demand for aerospace antimicrobial coatings across the globe. Additionally, the prevalence of infectious diseases is anticipated to offer prominent opportunities to the manufacturers of aerospace antimicrobial coatings. The COVID-19 pandemic is expected to expediate the growth of the global aerospace antimicrobial coating market in coming years owing to rising adoption of antimicrobial coatings to prevent the spread the virus.
North America held a dominating share of the global aerospace antimicrobial coating market in 2019 and is anticipated to be a dominating region throughout the forecast period owing to the presence of leading aircraft manufacturers and paint & coating manufacturers across the United States. Increased investment in development of advanced anti-microbial coatings and rise in commercial aircraft deliveries is anticipated to contribute towards the growth of North America aerospace antimicrobial coating market during the forecast period. Asia Pacific is expected to be the fastest growing geography during the forecast period owing to expanding commercial aviation industry and increased investment in development of advanced or specialty chemicals across the leading countries.
Aerospace Antimicrobial Coating Market Share Analysis, by Geography (2021)
The report titled “Aerospace Antimicrobial Coating Market - Global Market Share, Trends, Analysis and Forecasts, 2022-2032”, wherein 2020 is historic period, 2021 is the base year, and 2022 to 2032 is forecast period. Additionally, the study takes into consideration the competitive landscape, wherein the report would provide company overview and market outlook for leading players in the global aerospace antimicrobial coating market. Furthermore, the report would reflect the key developments, global & regional sales network, business strategies, research & development activities, employee strength, and key executive, for all the major players operating in the market.
The global aerospace antimicrobial coating market is segmented on the basis of platform, material, application, end user, and geography. Based on platform, the global aerospace antimicrobial coating market is segmented into aviation and space. The aviation segment is further sub-segmented into commercial aviation, general aviation, military aviation, and others. Based on material, the global aerospace antimicrobial coating market is segmented into silver, copper, and others. Based on application, the global aerospace antimicrobial coating market is segmented into air supply & management system, thermal management & control system, cabin pressure & control system, sanitary facilities and kitchen, cabin seats & interior, air purification & oxygen systems, cabin pressure & control system, sanitary facilities & purification systems, and others. Based on end user, the global aerospace antimicrobial coating market is segmented into aircraft OEMs and aftermarket (MRO). Based on geography, the global aerospace antimicrobial coating market is segmented into North America, Europe, Asia Pacific, Middle East & Africa, and South America.
The research provides in-depth analysis of prominent players holding majority share of the global market with a focus on all operating business segment and would identify the segment of the company focusing on aerospace antimicrobial coatings. Further, market share of prominent companies in the global aerospace antimicrobial coating market would also be estimated. the study takes into consideration the key competitive information such as business strategy, product portfolio, key development, swot analysis, and research and development focus of all the aerospace antimicrobial coating companies.
The global aerospace antimicrobial coating market study would take into consideration the participants engaged throughout the supply chain and value chain of the market, along with their contribution. Product portfolio would focus on all the products under the aerospace antimicrobial coating business segment of the company. Similarly, the recent development section would focus on the latest developments of company such as strategic alliances and partnerships, merger and acquisition, new product launched and geographic expansion in the global aerospace antimicrobial coating market.
Major players active in the global aerospace antimicrobial coating market include Akzo Nobel N.V., BASF SE, DUNMORE, Henkel AG & Company, KGaA, Hentzen Coatings Inc., Hexion, Mankiewicz Gebr. & Co., PERMAGARD, Polymer Technologies, Inc., PPG Industries, Inc., and Sherwin-Williams Company.
The Global Aerospace Antimicrobial Coating Market Is Segmented As Below:
Based On Platform
Based On Material
Based On Application
- Air Supply & Management System
- Thermal Management & Control System
- Cabin Pressure & Control System
- Sanitary Facilities And Kitchen
- Cabin Seats & Interior
- Air Purification & Oxygen Systems
- Cabin Pressure & Control System
- Sanitary Facilities & Purification Systems
- Others
Based On End User
- Aircraft OEMs
- Aftermarket (MRO)
1. Introduction 1.1. Research Objectives 1.2. Report Assumptions 1.3. Research Methodology 1.4. Abbreviations 2. Preface 2.1. Market Definition 2.2. Report Scope and Market Segmentation 2.3. Research Highlights 3. Market Synopsis: Global Aerospace Antimicrobial Coating Market 4. Global Aerospace Antimicrobial Coating Market Qualitative Analysis 4.1. Ecosystem Analysis 4.1.1. Role of participants 4.1.2. Integration scenario 4.2. Trends 4.2.1. Market trends 4.2.2. Technology Trends 4.3. PESTEL Analysis (For 5 prominent countries) 4.4. Market Influencers 4.4.1. Driving Forces 4.4.2. Hindering Forces 4.4.3. Opportunities 4.5. Technology evolution 5. Global Aerospace Antimicrobial Coating Market Analysis and Forecast, by Platform 5.1. Overview and definitions 5.2. Key segment analysis 5.3. Global Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Platform, 2018 – 2030 5.3.1. Aviation 5.3.1.1. Commercial aviation 5.3.1.2. General aviation 5.3.1.3. Military aviation 5.3.1.4. Others 5.3.2. Space 6. Global Aerospace Antimicrobial Coating Market Analysis and Forecast, by Material 6.1. Overview and definitions 6.2. Key segment analysis 6.3. Global Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Material, 2018 – 2030 6.3.1. Silver 6.3.2. Copper 6.3.3. Others 7. Global Aerospace Antimicrobial Coating Market Analysis and Forecast, by Application 7.1. Overview and definitions 7.2. Key segment analysis 7.3. Global Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Application, 2018 – 2030 7.3.1. Air supply & management system 7.3.2. Thermal management & control system 7.3.3. Cabin pressure & control system 7.3.4. Sanitary facilities and kitchen 7.3.5. Cabin seats & interior 7.3.6. Air purification & oxygen systems 7.3.7. Cabin pressure & control system 7.3.8. Sanitary facilities & purification systems 7.3.9. Others 8. Global Aerospace Antimicrobial Coating Market Analysis and Forecast, by End User 8.1. Overview and definitions 8.2. Key segment analysis 8.3. Global Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by End User, 2018 – 2030 8.3.1. Aircraft OEM 8.3.2. Aftermarket (MRO) 9. Global Aerospace Antimicrobial Coating Market Analysis and Forecast, by Region 9.1. Overview and definitions 9.2. Key segment analysis 9.3. Global Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Region, 2018 – 2030 9.3.1. North America 9.3.2. Europe 9.3.3. Asia Pacific 9.3.4. Middle East & Africa 9.3.5. South America 10. North America Aerospace Antimicrobial Coating Market Analysis and Forecast 10.1. Overview and definitions 10.2. Key segment analysis 10.3. North America Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Platform, 2018 – 2030 10.3.1. Aviation 10.3.1.1. Commercial aviation 10.3.1.2. General aviation 10.3.1.3. Military aviation 10.3.1.4. Others 10.3.2. Space 10.4. North America Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Material, 2018 – 2030 10.4.1. Silver 10.4.2. Copper 10.4.3. Others 10.5. North America Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Application, 2018 – 2030 10.5.1. Air supply & management system 10.5.2. Thermal management & control system 10.5.3. Cabin pressure & control system 10.5.4. Sanitary facilities and kitchen 10.5.5. Cabin seats & interior 10.5.6. Air purification & oxygen systems 10.5.7. Cabin pressure & control system 10.5.8. Sanitary facilities & purification systems 10.5.9. Others 10.6. North America Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by End User, 2018 – 2030 10.6.1. Aircraft OEM 10.6.2. Aftermarket (MRO) 10.7. North America Aerospace Antimicrobial Coating Market Estimates (US$ Mn), Country, 2018 – 2030 10.7.1. The U.S. 10.7.2. Canada 10.7.3. Rest of North America 11. Europe Aerospace Antimicrobial Coating Market Analysis and Forecast 11.1. Overview and definitions 11.2. Key segment analysis 11.3. Europe Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Platform, 2018 – 2030 11.3.1. Aviation 11.3.1.1. Commercial aviation 11.3.1.2. General aviation 11.3.1.3. Military aviation 11.3.1.4. Others 11.3.2. Space 11.4. Europe Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Material, 2018 – 2030 11.4.1. Silver 11.4.2. Copper 11.4.3. Others 11.5. Europe Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Application, 2018 – 2030 11.5.1. Air supply & management system 11.5.2. Thermal management & control system 11.5.3. Cabin pressure & control system 11.5.4. Sanitary facilities and kitchen 11.5.5. Cabin seats & interior 11.5.6. Air purification & oxygen systems 11.5.7. Cabin pressure & control system 11.5.8. Sanitary facilities & purification systems 11.5.9. Others 11.6. Europe Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by End User, 2018 – 2030 11.6.1. Aircraft OEM 11.6.2. Aftermarket (MRO) 11.7. Europe Aerospace Antimicrobial Coating Market Estimates (US$ Mn), Country, 2018 – 2030 11.7.1. Germany 11.7.2. United Kingdom 11.7.3. Belgium 11.7.4. Spain 11.7.5. Rest of Europe 12. Asia Pacific Aerospace Antimicrobial Coating Market Analysis and Forecast 12.1. Overview and definitions 12.2. Key segment analysis 12.3. Asia Pacific Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Platform, 2018 – 2030 12.3.1. Aviation 12.3.1.1. Commercial aviation 12.3.1.2. General aviation 12.3.1.3. Military aviation 12.3.1.4. Others 12.3.2. Space 12.4. Asia Pacific Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Material, 2018 – 2030 12.4.1. Silver 12.4.2. Copper 12.4.3. Others 12.5. Asia Pacific Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Application, 2018 – 2030 12.5.1. Air supply & management system 12.5.2. Thermal management & control system 12.5.3. Cabin pressure & control system 12.5.4. Sanitary facilities and kitchen 12.5.5. Cabin seats & interior 12.5.6. Air purification & oxygen systems 12.5.7. Cabin pressure & control system 12.5.8. Sanitary facilities & purification systems 12.5.9. Others 12.6. Asia Pacific Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by End User, 2018 – 2030 12.6.1. Aircraft OEM 12.6.2. Aftermarket (MRO) 12.7. Asia Pacific Aerospace Antimicrobial Coating Market Estimates (US$ Mn), Country, 2018 – 2030 12.7.1. Japan 12.7.2. India 12.7.3. China 12.7.4. Australia 12.7.5. Rest of Asia Pacific 13. Middle East & Africa Aerospace Antimicrobial Coating Market Analysis and Forecast 13.1. Overview and definitions 13.2. Key segment analysis 13.3. Middle East & Africa Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Platform, 2018 – 2030 13.3.1. Aviation 13.3.1.1. Commercial aviation 13.3.1.2. General aviation 13.3.1.3. Military aviation 13.3.1.4. Others 13.3.2. Space 13.4. Middle East & Africa Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Material, 2018 – 2030 13.4.1. Silver 13.4.2. Copper 13.4.3. Others 13.5. Middle East & Africa Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Application, 2018 – 2030 13.5.1. Air supply & management system 13.5.2. Thermal management & control system 13.5.3. Cabin pressure & control system 13.5.4. Sanitary facilities and kitchen 13.5.5. Cabin seats & interior 13.5.6. Air purification & oxygen systems 13.5.7. Cabin pressure & control system 13.5.8. Sanitary facilities & purification systems 13.5.9. Others 13.6. Middle East & Africa Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by End User, 2018 – 2030 13.6.1. Aircraft OEM 13.6.2. Aftermarket (MRO) 13.7. Middle East & Africa Aerospace Antimicrobial Coating Market Estimates (US$ Mn), Country, 2018 – 2030 13.7.1. Saudi Arabia 13.7.2. UAE 13.7.3. Rest of Middle East 14. South America Aerospace Antimicrobial Coating Market Analysis and Forecast 14.1. Overview and definitions 14.2. Key segment analysis 14.3. South America Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Platform, 2018 – 2030 14.3.1. Aviation 14.3.1.1. Commercial aviation 14.3.1.2. General aviation 14.3.1.3. Military aviation 14.3.1.4. Others 14.3.2. Space 14.4. South America Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Material, 2018 – 2030 14.4.1. Silver 14.4.2. Copper 14.4.3. Others 14.5. South America Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by Application, 2018 – 2030 14.5.1. Air supply & management system 14.5.2. Thermal management & control system 14.5.3. Cabin pressure & control system 14.5.4. Sanitary facilities and kitchen 14.5.5. Cabin seats & interior 14.5.6. Air purification & oxygen systems 14.5.7. Cabin pressure & control system 14.5.8. Sanitary facilities & purification systems 14.5.9. Others 14.6. South America Aerospace Antimicrobial Coating Market Estimates (US$ Mn), by End User, 2018 – 2030 14.6.1. Aircraft OEM 14.6.2. Aftermarket (MRO) 14.7. South America Aerospace Antimicrobial Coating Market Estimates (US$ Mn), Country, 2018 – 2030 14.7.1. Brazil 14.7.2. Rest of South America 15. Competition Analysis – Aerospace Antimicrobial Coating Market 15.1. Market Composition 15.2. Market Share Analysis (%), by Supplier (2019) 15.3. Company Profiles 15.3.1. Akzo Nobel N.V. 15.3.1.1. Business overview 15.3.1.2. Management 15.3.1.3. Geographic presence 15.3.1.4. Product portfolio 15.3.1.5. Financial facts 15.3.1.6. Channel partners 15.3.1.7. Relevant news and strategic view 15.3.2. BASF SE 15.3.3. DUNMORE 15.3.4. Henkel AG & Company, KGaA 15.3.5. Hentzen Coatings Inc. 15.3.6. Hexion 15.3.7. Mankiewicz Gebr. & Co. 15.3.8. PERMAGARD 15.3.9. Polymer Technologies, Inc. 15.3.10. PPG Industries, Inc. 15.3.11. Sherwin-Williams Company 16. Conclusion & Recommendations
