Antimicrobial HVAC Coating Market

Antimicrobial HVAC Coating Market Forecast and Outlook (2025-2035)

The global antimicrobial HVAC coating market is valued at USD 1.3 billion in 2025 and is set to reach USD 4.0 billion by 2035, recording an absolute increase of USD 2.7 billion over the forecast period. This translates into a total growth of 207.9%, with the market forecast to expand at a CAGR of 11.9% between 2025 and 2035. The market size is expected to grow by approximately 3.1X during the same period, supported by increasing awareness of indoor air quality, growing demand for antimicrobial protection solutions, and rising requirements for hygienic HVAC systems across commercial, industrial, and residential applications.

The global antimicrobial HVAC coating market represents a critical segment within the building protection and indoor environment management industry, driven by the superior protective characteristics of antimicrobial formulations and the precise application capabilities of advanced coating technology. These specialized coatings operate through active antimicrobial agents, providing continuous surface protection and automated microbial control for various HVAC system components including ductwork, coils, filters, and air handling units. The antimicrobial mechanism enables continuous protection against bacteria, mold, and other microorganisms, making these coatings particularly suitable for health-conscious facilities and systems requiring stringent hygiene standards.

Quick Stats for Antimicrobial HVAC Coating Market

• Antimicrobial HVAC Coating Market Value (2025): USD 1.3 billion
• Antimicrobial HVAC Coating Market Forecast Value (2035): USD 4.0 billion
• Antimicrobial HVAC Coating Market Forecast CAGR: 11.9%
• Leading Type Category in Antimicrobial HVAC Coating Market: Organic Coating (62.4%)
• Key Growth Regions in Antimicrobial HVAC Coating Market: Asia Pacific, North America, Europe
• Key Players in Antimicrobial HVAC Coating Market: Nippon Paint, BASF, Sherwin-Williams, AkzoNobel, Trane

The market encompasses various coating types, application methods, and specialized formulations tailored for specific HVAC protection requirements. Modern antimicrobial HVAC coatings incorporate advanced polymer technology, integrated antimicrobial agents, and enhanced adhesion systems that can operate effectively across variable environmental conditions while maintaining consistent protection over extended operational periods. The integration of nanotechnology, enhanced durability features, and multi-functional protection capabilities has further enhanced the value proposition of these coating systems among facility managers seeking comprehensive HVAC protection and indoor air quality improvement.

Market dynamics are significantly influenced by stringent indoor air quality regulations, particularly in healthcare facilities, educational institutions, and commercial buildings where microbial contamination prevention and air quality optimization are paramount. The construction sector's increasing emphasis on healthy building standards, HVAC system protection, and operational efficiency has created substantial demand for high-performance antimicrobial coating solutions in air handling systems, ductwork installations, and climate control networks. The growing trend toward smart building technologies and health-focused facility management has amplified the need for protective coating systems capable of integration with HVAC monitoring platforms and air quality management systems.

Consumer purchasing patterns show a marked preference for comprehensive coating systems that combine antimicrobial protection capabilities with versatile application options, multiple substrate compatibility, and extensive durability features for diverse HVAC applications. The market has witnessed significant technological advancement in antimicrobial agent development, coating formulation optimization, and application system design, making these products more suitable for demanding environmental conditions, extended service cycles, and health-critical applications.

Between 2025 and 2030, the antimicrobial HVAC coating market is projected to expand from USD 1.3 billion to USD 2.3 billion, resulting in a value increase of USD 1.0 billion, which represents 36.3% of the total forecast growth for the decade. This phase of development will be shaped by increasing indoor air quality awareness, rising demand for antimicrobial protection solutions, and growing availability of advanced coating formulations across healthcare facilities and commercial building applications.

Between 2030 and 2035, the market is forecast to grow from USD 2.3 billion to USD 4.0 billion, adding another USD 1.7 billion, which constitutes 63.7% of the ten-year expansion. This period is expected to be characterized by the advancement of nanotechnology-enhanced coating systems, the development of multi-functional protective formulations for specialized applications, and the expansion of intelligent coating networks across diverse commercial and industrial facilities. The growing emphasis on preventive maintenance and health optimization will drive demand for advanced antimicrobial coating varieties with enhanced protective capabilities, improved application characteristics, and superior long-term performance profiles.

Between 2020 and 2024, the antimicrobial HVAC coating market experienced accelerated growth, driven by increasing health consciousness and growing recognition of antimicrobial technology's critical importance in maintaining indoor air quality following global health awareness campaigns. The market developed as facility managers recognized the advantages of antimicrobial HVAC coatings over conventional protective solutions in health-sensitive environments and began seeking specialized coatings designed for comprehensive microbial control requirements. Technological advancement in antimicrobial agent technology and coating durability began emphasizing the critical importance of maintaining protective effectiveness while enhancing application reliability and improving service performance across diverse HVAC coating applications.

Antimicrobial HVAC Coating Market Key Takeaways

Metric	Value
Estimated Value in (2025E)	USD 1.3 billion
Forecast Value in (2035F)	USD 4.0 billion
Forecast CAGR (2025 to 2035)	11.9%

From 2030 to 2035, the market is forecast to grow from USD 2.3 billion to USD 4.0 billion, adding another USD 1.7 billion, which constitutes 63.7% of the ten-year expansion. This period is expected to be characterized by the advancement of artificial intelligence integration in coating application systems, the integration of predictive analytics for optimal protective performance, and the development of specialized coating configurations for high-efficiency building applications. The growing emphasis on health optimization and equipment protection will drive demand for premium varieties with enhanced antimicrobial performance capabilities, improved application options, and superior automated monitoring characteristics.

Between 2020 and 2024, the antimicrobial HVAC coating market experienced robust growth, driven by increasing awareness of health-related facility requirements and growing recognition of specialized coating systems' effectiveness in supporting healthy building operations across commercial facilities and healthcare applications. The market developed as users recognized the potential for antimicrobial HVAC coatings to deliver protective advantages while meeting modern requirements for comprehensive microbial control and reliable health performance. Technological advancement in coating formulation optimization and antimicrobial agent development began emphasizing the critical importance of maintaining protective effectiveness while extending service life and improving user satisfaction across diverse antimicrobial coating applications.

Why is the Antimicrobial HVAC Coating Market Growing?

Market expansion is being supported by the increasing global emphasis on indoor air quality and the corresponding shift toward high-performance protective systems that can provide superior antimicrobial control characteristics while meeting user requirements for comprehensive HVAC protection and cost-effective health management solutions. Modern facility managers are increasingly focused on incorporating coating systems that can enhance protective reliability while satisfying demands for consistent, precisely controlled microbial prevention and optimized indoor air quality practices. Antimicrobial HVAC coatings' proven ability to deliver continuous protection excellence, health safety benefits, and diverse application possibilities makes them essential components for health-focused facilities and quality-focused building professionals.

The growing emphasis on healthy building standards and indoor environment optimization is driving demand for high-performance antimicrobial coating systems that can support distinctive protective outcomes and comprehensive health management across HVAC applications, climate control installations, and premium building systems. User preference for coating solutions that combine functional excellence with health protection is creating opportunities for innovative implementations in both traditional and emerging building health applications. The rising influence of smart building technologies and advanced monitoring systems is also contributing to increased adoption of intelligent antimicrobial coating solutions that can provide authentic protective benefits and reliable health monitoring characteristics.

How is the Antimicrobial HVAC Coating Market Segmented by Key Factors?

The market is segmented by type, application, substrate compatibility, durability class, and region. By type, the market is divided into organic coating, inorganic coating, and hybrid formulations. Based on application, the market is categorized into marine environments, wastewater treatments, food industrial, petrochemical industrial, and others. By substrate compatibility, the market includes metal surfaces, polymer substrates, and composite materials. By durability class, the market encompasses standard protection, enhanced durability, and premium long-term categories. Regionally, the market is divided into North America, Europe, Asia Pacific, Latin America, Middle East & Africa, and other regions.

By Type, the Organic Coating Segment Accounts for 62.4% Market Share

The organic coating segment is projected to account for 62.4% of the antimicrobial HVAC coating market in 2025, reaffirming its position as the leading type category. Building operators and HVAC professionals increasingly utilize organic coating systems for their superior application characteristics, established performance standards, and essential functionality in diverse coating applications across multiple building sectors. Organic coatings' proven performance characteristics and established cost-effectiveness directly address user requirements for reliable antimicrobial protection and optimal application precision in commercial and industrial facilities.

This type segment forms the foundation of modern antimicrobial protection performance patterns, as it represents the coating formulation with the greatest application versatility and established compatibility across multiple HVAC system components. Building investments in advanced coating technology and antimicrobial optimization continue to strengthen adoption among protection-focused users. With facility managers prioritizing health protection and application reliability, organic coating systems align with both performance objectives and application requirements, making them the central component of comprehensive antimicrobial protection strategies.

By Application, Marine Environments Segment Shows Strong Market Dominance

Marine environments is projected to represent 31.7% of the antimicrobial HVAC coating market in 2025, underscoring its critical role as the primary application for protection-focused users seeking superior antimicrobial control benefits and enhanced environmental protection credentials. Marine environment users and facility operators prefer marine applications for their established protective requirements, proven environmental demand, and ability to maintain exceptional antimicrobial precision while supporting versatile system coverage during diverse environmental conditions. Positioned as essential applications for protection-focused facility managers, marine environment offerings provide both protective excellence and environmental optimization advantages.

The segment is supported by continuous improvement in marine protection technology and the widespread availability of established marine standards that enable performance assurance and premium positioning at the facility level. Marine environment users are optimizing coating selections to support application-specific requirements and comprehensive environmental protection strategies. As marine protection technology continues to advance and facilities seek effective antimicrobial methods, marine environment applications will continue to drive market growth while supporting protective efficiency and environmental optimization strategies.

What are the Drivers, Restraints, and Key Trends of the Antimicrobial HVAC Coating Market?

The antimicrobial HVAC coating market is advancing rapidly due to increasing health consciousness adoption and growing need for comprehensive antimicrobial protection solutions that emphasize superior protective performance across commercial segments and building health applications. The market faces challenges, including competition from conventional coating technologies, application complexity considerations, and initial investment cost factors affecting adoption rates. Innovation in antimicrobial enhancement and advanced protective coating systems continues to influence market development and expansion patterns.

Expansion of Smart Building and Health Integration Applications

The growing adoption of antimicrobial HVAC coatings with building health connectivity and smart facility integration is enabling users to develop protective strategies that provide distinctive monitoring benefits while commanding automated protection and enhanced real-time health analysis characteristics. Smart building applications provide superior protective consistency while allowing more sophisticated health optimization features across various commercial categories. Users are increasingly recognizing the protective advantages of intelligent coating positioning for comprehensive building health outcomes and technology-integrated facility management.

Integration of Health Analytics and Performance Monitoring Systems

Modern antimicrobial HVAC coating manufacturers are incorporating advanced health sensors, real-time performance monitoring capabilities, and protective analytics systems to enhance application precision, improve coating effectiveness performance, and meet building demands for intelligent antimicrobial protection solutions. These systems improve protective effectiveness while enabling new applications, including continuous health monitoring programs and automated optimization protocols. Advanced analytics integration also allows users to support proactive health positioning and performance assurance beyond traditional coating protection requirements.

How is the Antimicrobial HVAC Coating Market Analyzed by Key Country?

Country	CAGR (2025-2035)
China	16.0%
India	14.9%
Germany	13.7%
Brazil	12.5%
USA	11.3%
UK	10.1%
Japan	8.9%

The antimicrobial HVAC coating market is experiencing robust growth globally, with China leading at a 16.0% CAGR through 2035, driven by the expanding construction sector, growing building health requirements, and increasing adoption of advanced indoor air quality management systems. India follows at 14.9%, supported by rising urbanization, expanding commercial development industry, and growing acceptance of antimicrobial protection technologies. Germany shows growth at 13.7%, emphasizing established engineering standards and comprehensive building health development. Brazil records 12.5%, focusing on construction modernization and health protection growth. The USA demonstrates 11.3% growth, prioritizing advanced building technologies and health optimization.

The report covers an in-depth analysis of 40+ countries, with top-performing countries highlighted below.

Why is China Leading Global Market Growth with Health Protection Revolution?

Revenue from antimicrobial HVAC coating consumption and sales in China is projected to exhibit exceptional growth with a CAGR of 16.0% through 2035, driven by the country's rapidly expanding construction sector, favorable government policies toward health protection modernization, and initiatives promoting building health technologies across major urban regions. China's position as a global construction hub and increasing focus on indoor air quality management systems are creating substantial demand for high-quality antimicrobial HVAC coatings in both domestic and export markets. Major building equipment companies and HVAC distributors are establishing comprehensive coating capabilities to serve growing demand and emerging health protection opportunities.

• Established construction culture and expanding health consciousness are driving demand for antimicrobial HVAC coatings across commercial facilities, residential developments, and comprehensive building health systems throughout Chinese construction markets.
• Strong building infrastructure and health adoption initiatives are supporting the rapid adoption of premium antimicrobial coatings among protection-focused developers seeking to meet evolving building standards and health requirements.

How is India Demonstrating Strong Market Potential with Urban Health Focus?

Demand for antimicrobial HVAC coating products in India is expanding at a CAGR of 14.9%, supported by rising urbanization investment, growing health consciousness, and expanding equipment distributor capabilities. The country's developing building infrastructure and increasing investment in health protection technologies are driving demand for antimicrobial coatings across both traditional and modern building applications. International building equipment companies and domestic distributors are establishing comprehensive operational networks to address growing market demand for health protection devices and effective antimicrobial solutions.

• Rising urban development and expanding construction capabilities are creating opportunities for antimicrobial HVAC coating adoption across commercial projects, modern building developments, and distributor companies throughout major Indian urban regions.
• Growing health awareness initiatives and building protection technology advancement are driving the adoption of specialized coating products and services among building users seeking to enhance their protective efficiency and meet increasing health protection demand.

What is Driving Germany’s Market Leadership with Engineering Excellence?

Revenue from antimicrobial HVAC coating products in Germany is projected to grow at a CAGR of 13.7% through 2035, supported by the country's mature engineering standards, established building health regulations, and leadership in indoor air quality technology. Germany's sophisticated building standards and strong support for advanced health protection systems are creating steady demand for both traditional and innovative antimicrobial coating varieties. Leading building equipment manufacturers and specialty distributors are establishing comprehensive operational strategies to serve both domestic markets and growing export opportunities.

• Advanced engineering technology capabilities and established protection-focused markets are driving demand for premium antimicrobial HVAC coatings across commercial facilities, residential buildings, and comprehensive health companies seeking superior performance profiles and engineering innovation.
• Strong engineering excellence culture and regulatory leadership are supporting the adoption of innovative coating technology among users prioritizing protective reliability and engineering precision in building health applications.

How is Brazil Strengthening Its Position with Construction Health Growth?

Demand for antimicrobial HVAC coating products in Brazil is anticipated to expand, reflecting a CAGR of 7.8% from 2025 to 2035. This growth is fueled by building health expansion and increasing distributor capabilities. Brazilian building users and construction facilities consistently seek protection-focused equipment that enhances protective performance and supports health excellence for both traditional and modern building applications. The country's position as a Latin American construction leader continues to drive innovation in specialized antimicrobial protection applications and building health standards.

• Expanding construction culture and growing building markets are driving demand for commercial antimicrobial HVAC coatings across building consumers, protection providers, and health-focused distributors seeking superior antimicrobial control and distinctive protective profiles.
• Increasing focus on building health and construction protection systems is supporting the adoption of specialty antimicrobial coating varieties among users and distributors seeking authentic Brazilian health-focused products in regional markets with established construction expertise.

What is Anchoring Growth in the USA with Technology Integration?

Revenue from antimicrobial HVAC coating products in the USA is growing at a CAGR of 11.3% through 2035, supported by the country's emphasis on building technology advancement, health protection optimization, and advanced control system integration requiring effective antimicrobial protection solutions. American building users and health-focused facilities prioritize performance reliability and protective precision, making specialized antimicrobial HVAC coatings essential components for both traditional and modern building health applications. The country's comprehensive building technology leadership and advancing health patterns support continued market expansion.

• Advanced building technology capabilities and growing precision health management are driving demand for antimicrobial HVAC coatings across specialty applications, modern building formats, and technology-integrated health programs serving domestic markets with increasing protective requirements.
• Strong focus on health optimization and performance excellence is encouraging users and distributors to adopt coating solutions that support health objectives and meet American quality standards for building health applications.

How is the UK Maintaining Steady Growth with Building Health Focus?

Demand for antimicrobial HVAC coating products in the UK is forecasted to increase at a CAGR of 10.1% through 2035, supported by established building standards, mature healthcare markets, and an emphasis on indoor air quality across the commercial and residential sectors. British building users and health professionals prioritize quality performance and protective consistency, creating steady demand for premium antimicrobial coating solutions. The country's comprehensive market maturity and established building practices support continued development in specialized health applications.

• Established building markets and mature health industry are driving demand for quality antimicrobial HVAC coatings across commercial operations, residential facilities, and professional health companies throughout British building regions.
• Strong emphasis on quality standards and health protection is supporting the adoption of premium coating varieties among users seeking proven performance and established building credentials in health applications.

Why is Japan Demonstrating Precision-Focused Growth in Antimicrobial HVAC Coatings?

Revenue from antimicrobial HVAC coating products in Japan is projected to expand at a CAGR of 8.9% through 2035, supported by the country's emphasis on precision engineering, protective excellence, and advanced technology integration requiring effective antimicrobial protection solutions. Japanese building users and health-focused facilities prioritize technical performance and engineering precision, making specialized antimicrobial HVAC coatings essential components for both traditional and modern building health applications. The country's comprehensive engineering leadership and advancing precision patterns support continued market expansion.

• Advanced precision engineering technology capabilities and growing technical health applications are driving demand for antimicrobial HVAC coatings across specialty building applications, modern precision formats, and technology-integrated construction programs serving domestic markets with increasing quality requirements.
• Strong focus on technical precision and protective excellence is encouraging users and distributors to adopt coating solutions that support engineering objectives and meet Japanese precision standards for building health applications.

How is the Europe Antimicrobial HVAC Coating Market Split by Country?

The Europe antimicrobial HVAC coating market is projected to grow from USD 382.4 million in 2025 to USD 1,178.3 million by 2035, recording a CAGR of 11.9% over the forecast period. Germany leads the region with a 35.8% share in 2025, moderating slightly to 35.4% by 2035, supported by its strong engineering traditions and demand for premium, precision-manufactured coating solutions. The United Kingdom follows with 28.7% in 2025, easing to 28.3% by 2035, driven by a mature building health market and emphasis on indoor air quality and performance excellence.

France accounts for 16.9% in 2025, rising to 17.2% by 2035, reflecting steady adoption of building health technologies and protective optimization. Italy holds 7.4% in 2025, expanding to 7.8% by 2035 as construction health and specialty protection applications grow. Spain contributes 5.3% in 2025, growing to 5.6% by 2035, supported by expanding building development and health awareness modernization. The Nordic countries rise from 3.2% in 2025 to 3.4% by 2035 on the back of strong health consciousness and advanced building methodologies. BENELUX remains at 2.7% share across both 2025 and 2035, reflecting mature, health-focused building markets.

What is the Competitive Landscape of the Antimicrobial HVAC Coating Market?

The antimicrobial HVAC coating market is characterized by competition among established coating manufacturers, specialized antimicrobial companies, and integrated building protection providers. Companies are investing in advanced antimicrobial technologies, specialized formulation engineering, product innovation capabilities, and comprehensive distribution networks to deliver consistent, high-quality, and reliable antimicrobial coating systems. Innovation in antimicrobial agent optimization, coating formulation advancement, and health-focused product development is central to strengthening market position and customer satisfaction.

Nippon Paint leads the market with 18% share with a strong focus on coating technology innovation and comprehensive building protection solutions, offering commercial and residential systems with emphasis on performance excellence and engineering heritage. BASF provides integrated building health solutions with a focus on commercial market applications and precision protection networks. Sherwin-Williams delivers comprehensive coating technology solutions with a focus on commercial positioning and protective efficiency. AkzoNobel specializes in comprehensive coating systems with an emphasis on health applications. Trane focuses on comprehensive building equipment with advanced design and premium positioning capabilities.

Global Antimicrobial HVAC Coating Market -- Stakeholder Contribution Framework

The success of antimicrobial HVAC coatings in meeting building health demands, indoor air quality requirements, and protective integration will not only enhance building performance outcomes but also strengthen global building technology manufacturing capabilities. It will consolidate emerging regions' positions as hubs for efficient antimicrobial coating production and align advanced economies with comprehensive health systems. This calls for a concerted effort by all stakeholders -- governments, industry bodies, manufacturers, distributors, and investors. Each can be a crucial enabler in preparing the market for its next phase of growth.

How Governments Could Spur Local Production and Adoption?

• Targeted Incentives: Introduce building health modernization subsidies for companies adopting advanced antimicrobial coating production technologies in construction and health regions, and production-linked incentives for facilities producing devices for domestic consumption and export markets.
• Trade Agreements: Accelerate export growth through bilateral and multilateral agreements that classify antimicrobial HVAC coatings under "building health equipment," easing cross-border regulatory approvals and health safety certifications.
• Facilitate Innovation: Establish Centers of Excellence for building health innovation and coating engineering. Fund R&D into effective antimicrobial systems, formulation optimization, and building-standard integration for commercial and residential applications.

How Industry Bodies Could Support Market Development?

• Foster Connectivity: Constitute a global building health consortium linking coating manufacturers, building protection suppliers, users, and policymakers to align production targets with indoor air quality and health commitments.
• Promote Exports: Work with export councils to brand antimicrobial HVAC coatings as premium, engineering-focused health solutions. Facilitate trade fairs to connect building health innovators with global buyers in commercial, residential, and industrial sectors.
• Upskilling Programs: Develop curricula on advanced coating manufacturing, antimicrobial technology, building health processes, and protective optimization to prepare manufacturers and operators for premium building market opportunities.

How Distributors and Building Equipment Players Could Strengthen the Ecosystem?

• Drive Integration: Bundle antimicrobial HVAC coatings with health-focused marketing and protection messaging systems. Position specialized coatings as part of holistic "building health optimization solutions."
• Forge Partnerships: Collaborate with coating manufacturers and technology providers for joint R&D on health applications, protection enhancement initiatives, and global quality assurance for premium markets.

How Manufacturers Could Navigate the Shift?

• Capture Premium Markets: Leverage government incentives and rising health demand to offer antimicrobial HVAC coatings into growth markets where general coating solutions face performance and protection challenges.
• Invest in Technology: Partner with technology providers to advance effective antimicrobial workflows, building-grade quality, and advanced manufacturing practices.
• Build Capabilities: Train technical staff and health specialists to demonstrate antimicrobial coatings' protective advantages, repositioning building relationships toward long-term health partnerships.

Key Players in the Antimicrobial HVAC Coating Market

• Nippon Paint
• BASF
• Sherwin-Williams
• AkzoNobel
• Trane
• Surf Chemicals
• Adsil Corporation
• Blygold
• Energy Guard
• SK Formulations
• INFINIGUARD
• Aqua Aero Coatings
• USA Coil & Air
• Oxycoats
• Nyalic
• Bronz Glow
• Belzona
• Hempel
• Rust-Oleum

Scope of the Report

Items	Values
Quantitative Units (2025)	USD 1.3 billion
Type	Organic Coating, Inorganic Coating, Hybrid Formulations
Application	Marine Environments, Wastewater Treatments, Food Industrial, Petrochemical Industrial, Others
Substrate Compatibility	Metal Surfaces, Polymer Substrates, Composite Materials
Durability Class	Standard Protection, Enhanced Durability, Premium Long-term
Regions Covered	North America, Europe, Asia Pacific, Latin America, Middle East & Africa, Other Regions
Countries Covered	China, India, Germany, Brazil, United States, United Kingdom, Japan, and 40+ countries
Key Companies Profiled	Nippon Paint, BASF, Sherwin-Williams, AkzoNobel, Trane, and other leading antimicrobial HVAC coating companies
Additional Attributes	Dollar sales by type, application, substrate compatibility, durability class, and region; regional demand trends, competitive landscape, technological advancements in coating engineering, antimicrobial optimization initiatives, health enhancement programs, and premium product development strategies

Antimicrobial HVAC Coating Market by Segments

Type:

• Organic Coating
• Inorganic Coating
• Hybrid Formulations

Application:

• Marine Environments
• Wastewater Treatments
• Food Industrial
• Petrochemical Industrial
• Others

Substrate Compatibility:

• Metal Surfaces
• Polymer Substrates
• Composite Materials

Durability Class:

• Standard Protection
• Enhanced Durability
• Premium Long-term

Region:

North America

• United States
• Canada
• Mexico

Europe

• Germany
• United Kingdom
• France
• Italy
• Spain
• Nordic Countries
• BENELUX
• Rest of Europe

Asia Pacific

• China
• India
• Japan
• South Korea
• Australia
• Rest of Asia Pacific

Latin America

• Brazil
• Argentina
• Rest of Latin America

Middle East & Africa

• Kingdom of Saudi Arabia
• United Arab Emirates
• South Africa
• Rest of Middle East & Africa

Other Regions

• Oceania
• Central Asia
• Other Markets