Microplastic Detection Market by Type (Polyethylene, Polytetrafluoroethylene), technology (Micro-Raman Spectroscopy, Ftir Spectroscopy), Medium (Water, Soil), Size ( < 1mm, 1-3mm), End-Use Industry (Water Treatment, FnB) - Global Forecast to 2029
The Microplastic Detection market size is projected to grow from USD 4.76 billion in 2024 to USD 6.49 billion by 2029, registering a CAGR of 6.4% during the forecast period. The growth in the market for Microplastic Detection is attributed to a number of factors. New developments in spectroscopy, for example, Raman and FTIR as well as microscopy, and other analytics have now increased the ability to monitor and analyze microplastics even within the most complex environmental samples, leading to growth in the market. In many regions, plastic manufacturers and other waste management companies are mandated to track and report on their microplastic emissions, thereby creating a direct demand for reliable detection technologies.
“ Polytetrafluoroethylene accounted for the second largest share in type segment of Microplastic Detection market in terms of value.”
Polytetrafluoroethylene is the second largest type segment in the microplastic detection market, owing to its extensive use and long-term environmental persistence. IT is a versatile polymer used in many industries, including automotive, construction, cookware and electronics. Non-stick coatings on cookware, or gaskets and seals in industrial machines, can hence be seen as the causes of microplastics in the environment. Therefore, microplastics are most likely to be formed from the degradation of polytetrafluoroethylene products due to time-dependent factors including physical abrasion, chemical reactions, or environmental exposure. They can also adsorb harmful chemicals, which may be transferred through the food chain, and pose potential risks to wildlife and human health. This has increased the requirement for effective detection and monitoring solutions that target polytetrafluoroethylene particles.
“FTIR Spectroscopy accounted for the second largest share in technology industry segment of Microplastic Detection market in terms of value.”
Fourier Transform Infrared (FTIR) spectroscopy accounted for the second largest share in the technology segment towards the detection of microplastic because it can identify and detect a wide variety of polymer types that are found in the sample of microplastic. FTIR spectroscopy has high specificity that allows a researcher to distinguish the different kinds of plastics, such as polyethylene, polypropylene, and polystyrene, found in different samples of the environment. This is essential to understand the composition and sources of microplastic pollution. Since this technology can be applied to both macro and micro-sized particles, it can be used as a highly valuable tool for the full spectre monitoring of microplastics. FTIR microscopes, integrating microscopy and spectroscopy, are useful for examining microscopic particle at micrometer scale to obtain detailed information on the size, shape, and chemical composition of microplastics.
“Soil accounted for the second largest share in medium segment of Microplastic Detection market in terms of value.”
Soil accounted for the second largest share in the medium segment of the microplastic detection market due to several key factors that highlight its significance as a critical area for monitoring and analysis. Sources of microplastics in soil are agricultural activities, urban runoff, decomposition of plastic wastes, and the use of biosolids and fertilizers containing plastic particles. Agricultural industries remain one of the leading causes of microplastic contamination of soils, including those manufactured from plastic mulch films, irrigation systems, and plastic-coated fertilizers. Slow decomposition of such materials tends to lead to microplastics, which are retained in the soil. This may influence both the fertility and health of the soil and its microbial communities. There is a potential pathway for their transfer to the food chain through crop uptake.
Microplastic size with 1mm-3mm accounted for the second largest share in size segment of Microplastic Detection market in terms of value.”
The Microplastics of sizes less than 1mm-3mm is the second most significant contributor in size segment for the detection of microplastics. These particles are primarily produced from the fragmentation of large pieces of plastics such as packaging materials, plastic carrier bags, and bottles. Since these particles have a larger size as compared to nano-sized microplastics, therefore it is easier to detect and quantify these microplastics through conventional methods including visual microscopy and spectroscopic methods.This size range also is important due to the significant threat it poses to marine and terrestrial wildlife; a large quantity of the particles are ingested as food by many organisms, such as fish and birds. This can lead to a blocking effect on organisms through the physical blocking of their digestive tracts, reduced nutrient intake, and even bioaccumulation of harmful chemicals, leading to effects cascading through the food chain that have an impact upon human health.
Food & beverages accounted for the second largest share in end-use industries segment of Microplastic Detection market in terms of value.”
The food and beverage industry is the second largest in the end-use segment of the microplastic detection market, due to growing concerns regarding food safety and human health risks from the presence of microplastics in foods. Microplastics have been detected in food products such as seafood, salt, honey, and even drinking water and have alerted consumers and authorities for possible ingestion and accumulation in the human body. Microplastics penetrate foodstuffs through several pathways such as plastic packaging, processing machinery and environmental factors.This widespread issue associated with the food supply chain compels major concern from the consumer towards the product safety and purity, compelling the manufacturers to address these worries and ensure integrity in their offerings.
“Asia pacific is the largest market for Microplastic Detection.”
Asia-Pacific has been the largest market for the detection of microplastics for a number of interrelated reasons, primarily its heavy industrialization, high population, and increased production and usage of plastics. China, India, Japan, and South Korea-the countries of this region-are among the world's largest producers and consumers of plastic products. Generation of enormous plastic wastes follows suit. This has led to significant plastic pollution, including microplastic contamination of marine and terrestrial habitats, mainly due to lack of waste management infrastructure in many parts of the region. The vast coastlines and high reliance on fisheries and agriculture amplify the environmental and economic risks due to microplastic pollution, thus leading to a high demand for advanced detection and monitoring solutions.
In-depth interviews were conducted with Chief Executive Officers (CEOs), marketing directors, other innovation and technology directors, and executives from various key organizations operating in the Microplastic Detection market, and information was gathered from secondary research to determine and verify the market size of several segments.
Research Coverage
This report segments the market for Microplastic Detection market on the basis of grade, function, application, and region, and provides estimations for the overall value of the market across various regions. A detailed analysis of key industry players has been conducted to provide insights into their business overviews, products & services, key strategies, and expansions associated with the market for Microplastic Detection market.
Key benefits of buying this report
This research report is focused on various levels of analysis — industry analysis (industry trends), market ranking analysis of top players, and company profiles, which together provide an overall view of the competitive landscape; emerging and high-growth segments of the Microplastic Detection market; high-growth regions; and market drivers, restraints, opportunities, and challenges.
The report provides insights on the following pointers:
“ Polytetrafluoroethylene accounted for the second largest share in type segment of Microplastic Detection market in terms of value.”
Polytetrafluoroethylene is the second largest type segment in the microplastic detection market, owing to its extensive use and long-term environmental persistence. IT is a versatile polymer used in many industries, including automotive, construction, cookware and electronics. Non-stick coatings on cookware, or gaskets and seals in industrial machines, can hence be seen as the causes of microplastics in the environment. Therefore, microplastics are most likely to be formed from the degradation of polytetrafluoroethylene products due to time-dependent factors including physical abrasion, chemical reactions, or environmental exposure. They can also adsorb harmful chemicals, which may be transferred through the food chain, and pose potential risks to wildlife and human health. This has increased the requirement for effective detection and monitoring solutions that target polytetrafluoroethylene particles.
“FTIR Spectroscopy accounted for the second largest share in technology industry segment of Microplastic Detection market in terms of value.”
Fourier Transform Infrared (FTIR) spectroscopy accounted for the second largest share in the technology segment towards the detection of microplastic because it can identify and detect a wide variety of polymer types that are found in the sample of microplastic. FTIR spectroscopy has high specificity that allows a researcher to distinguish the different kinds of plastics, such as polyethylene, polypropylene, and polystyrene, found in different samples of the environment. This is essential to understand the composition and sources of microplastic pollution. Since this technology can be applied to both macro and micro-sized particles, it can be used as a highly valuable tool for the full spectre monitoring of microplastics. FTIR microscopes, integrating microscopy and spectroscopy, are useful for examining microscopic particle at micrometer scale to obtain detailed information on the size, shape, and chemical composition of microplastics.
“Soil accounted for the second largest share in medium segment of Microplastic Detection market in terms of value.”
Soil accounted for the second largest share in the medium segment of the microplastic detection market due to several key factors that highlight its significance as a critical area for monitoring and analysis. Sources of microplastics in soil are agricultural activities, urban runoff, decomposition of plastic wastes, and the use of biosolids and fertilizers containing plastic particles. Agricultural industries remain one of the leading causes of microplastic contamination of soils, including those manufactured from plastic mulch films, irrigation systems, and plastic-coated fertilizers. Slow decomposition of such materials tends to lead to microplastics, which are retained in the soil. This may influence both the fertility and health of the soil and its microbial communities. There is a potential pathway for their transfer to the food chain through crop uptake.
Microplastic size with 1mm-3mm accounted for the second largest share in size segment of Microplastic Detection market in terms of value.”
The Microplastics of sizes less than 1mm-3mm is the second most significant contributor in size segment for the detection of microplastics. These particles are primarily produced from the fragmentation of large pieces of plastics such as packaging materials, plastic carrier bags, and bottles. Since these particles have a larger size as compared to nano-sized microplastics, therefore it is easier to detect and quantify these microplastics through conventional methods including visual microscopy and spectroscopic methods.This size range also is important due to the significant threat it poses to marine and terrestrial wildlife; a large quantity of the particles are ingested as food by many organisms, such as fish and birds. This can lead to a blocking effect on organisms through the physical blocking of their digestive tracts, reduced nutrient intake, and even bioaccumulation of harmful chemicals, leading to effects cascading through the food chain that have an impact upon human health.
Food & beverages accounted for the second largest share in end-use industries segment of Microplastic Detection market in terms of value.”
The food and beverage industry is the second largest in the end-use segment of the microplastic detection market, due to growing concerns regarding food safety and human health risks from the presence of microplastics in foods. Microplastics have been detected in food products such as seafood, salt, honey, and even drinking water and have alerted consumers and authorities for possible ingestion and accumulation in the human body. Microplastics penetrate foodstuffs through several pathways such as plastic packaging, processing machinery and environmental factors.This widespread issue associated with the food supply chain compels major concern from the consumer towards the product safety and purity, compelling the manufacturers to address these worries and ensure integrity in their offerings.
“Asia pacific is the largest market for Microplastic Detection.”
Asia-Pacific has been the largest market for the detection of microplastics for a number of interrelated reasons, primarily its heavy industrialization, high population, and increased production and usage of plastics. China, India, Japan, and South Korea-the countries of this region-are among the world's largest producers and consumers of plastic products. Generation of enormous plastic wastes follows suit. This has led to significant plastic pollution, including microplastic contamination of marine and terrestrial habitats, mainly due to lack of waste management infrastructure in many parts of the region. The vast coastlines and high reliance on fisheries and agriculture amplify the environmental and economic risks due to microplastic pollution, thus leading to a high demand for advanced detection and monitoring solutions.
In-depth interviews were conducted with Chief Executive Officers (CEOs), marketing directors, other innovation and technology directors, and executives from various key organizations operating in the Microplastic Detection market, and information was gathered from secondary research to determine and verify the market size of several segments.
- By Company Type: Tier 1 – 50%, Tier 2 – 30%, and Tier 3 – 20%
- By Designation: Managers– 15%, Directors – 20%, and Others – 65%
- By Region: North America – 30%, Europe – 25%, APAC – 35%, the Middle East & Africa –5%, and South America- 5%
Research Coverage
This report segments the market for Microplastic Detection market on the basis of grade, function, application, and region, and provides estimations for the overall value of the market across various regions. A detailed analysis of key industry players has been conducted to provide insights into their business overviews, products & services, key strategies, and expansions associated with the market for Microplastic Detection market.
Key benefits of buying this report
This research report is focused on various levels of analysis — industry analysis (industry trends), market ranking analysis of top players, and company profiles, which together provide an overall view of the competitive landscape; emerging and high-growth segments of the Microplastic Detection market; high-growth regions; and market drivers, restraints, opportunities, and challenges.
The report provides insights on the following pointers:
- Analysis of drivers: (Rising concerns of plastic pollution and its effect on ecosystem and human health), restraints (Absence of standardized detection method), opportunities (Advancement in machine learning and AI to enhance accuracy and speed), and challenges (Quantifying microplastics due to diverse size and shapes remains a significant technical hurdle) influencing the growth of Microplastic Detection market.
- Market Penetration: Comprehensive information on the Microplastic Detection market offered by top players in the global Microplastic Detection market.
- Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, in the Microplastic Detection market.
- Market Development: Comprehensive information about lucrative emerging markets the report analyzes the markets for Microplastic Detection market across regions.
- Market Capacity: Production capacities of companies producing Microplastic Detection are provided wherever available with upcoming capacities for the Microplastic Detection market.
- Competitive Assessment: In-depth assessment of market shares, strategies, products, and manufacturing capabilities of leading players in the Microplastic Detection market.
1 INTRODUCTION
1.1 STUDY OBJECTIVES
1.2 MARKET DEFINITION
1.3 STUDY SCOPE
1.3.1 MARKETS COVERED
1.3.2 YEARS CONSIDERED
1.3.3 INCLUSIONS AND EXCLUSIONS
1.3.4 CURRENCY CONSIDERED
1.3.5 UNITS CONSIDERED
1.4 LIMITATIONS
1.5 STAKEHOLDERS
2 RESEARCH METHODOLOGY
2.1 RESEARCH DATA
2.1.1 SECONDARY DATA
2.1.1.1 Key data from secondary sources
2.1.2 PRIMARY DATA
2.1.2.1 Key data from primary sources
2.1.2.2 Key primary sources
2.1.2.3 Key participants for primary interviews
2.1.2.4 Breakdown of interviews with experts
2.1.2.5 Key industry insights
2.2 BASE NUMBER CALCULATION
2.2.1 SUPPLY-SIDE ANALYSIS
2.2.2 DEMAND-SIDE ANALYSIS
2.3 GROWTH FORECAST
2.3.1 SUPPLY SIDE
2.3.2 DEMAND SIDE
2.4 MARKET SIZE ESTIMATION
2.4.1 BOTTOM-UP APPROACH
2.4.2 TOP-DOWN APPROACH
2.5 DATA TRIANGULATION
2.6 RESEARCH ASSUMPTIONS
2.7 GROWTH FORECAST
2.8 RISK ASSESSMENT
2.9 FACTOR ANALYSIS
3 EXECUTIVE SUMMARY
4 PREMIUM INSIGHTS
4.1 ATTRACTIVE OPPORTUNITIES FOR PLAYERS IN MICROPLASTIC DETECTION MARKET
4.2 MICROPLASTIC DETECTION MARKET, BY TYPE
4.3 MICROPLASTIC DETECTION MARKET, BY KEY COUNTRY
5 MARKET OVERVIEW
5.1 INTRODUCTION
5.2 MARKET DYNAMICS
5.2.1 DRIVERS
5.2.1.1 Rising public concerns over effects of plastic pollution on ecosystems and health
5.2.1.2 Advancements in spectroscopy, microscopy, and sensor technologies
5.2.2 RESTRAINTS
5.2.2.1 Absence of standardized detection methods
5.2.3 OPPORTUNITIES
5.2.3.1 Advancements in machine learning and AI
5.2.3.2 Development of low-cost, portable detection systems for real-time monitoring and field studies
5.2.4 CHALLENGES
5.2.4.1 Achieving required sensitivity and resolution with single analytical technology
5.2.4.2 Inconsistencies in detection and arbitrary reporting due to diverse microplastics sizes and shapes
5.3 GENERATIVE AI
5.3.1 INTRODUCTION
5.3.2 IMPACT ON MICROPLASTIC DETECTION MARKET
6 INDUSTRY TRENDS
6.1 INTRODUCTION
6.2 TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS
6.3 VALUE CHAIN ANALYSIS
6.4 INVESTMENT AND FUNDING SCENARIO
6.5 PRICING ANALYSIS
6.5.1 AVERAGE SELLING PRICE TREND, BY REGION
6.5.2 AVERAGE SELLING PRICE TREND, BY TYPE
6.5.3 AVERAGE SELLING PRICE TREND OF KEY PLAYERS, BY TYPE
6.6 ECOSYSTEM ANALYSIS
6.7 TECHNOLOGY ANALYSIS
6.7.1 KEY TECHNOLOGIES
6.7.2 COMPLEMENTARY TECHNOLOGIES
6.7.3 ADJACENT TECHNOLOGIES
6.8 PATENT ANALYSIS
6.8.1 METHODOLOGY
6.8.2 GRANTED PATENTS
6.8.3 INSIGHTS
6.8.4 LEGAL STATUS
6.8.5 JURISDICTION ANALYSIS
6.8.6 TOP APPLICANTS
6.9 TRADE ANALYSIS
6.9.1 IMPORT SCENARIO (HS CODE 902730)
6.9.2 EXPORT SCENARIO (HS CODE 902730)
6.10 KEY CONFERENCES AND EVENTS, 2024–2025
6.11 STANDARDS AND REGULATORY LANDSCAPE
6.11.1 REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS
6.11.2 STANDARDS
6.12 PORTER’S FIVE FORCES ANALYSIS
6.12.1 THREAT OF NEW ENTRANTS
6.12.2 THREAT OF SUBSTITUTES
6.12.3 BARGAINING POWER OF SUPPLIERS
6.12.4 BARGAINING POWER OF BUYERS
6.12.5 INTENSITY OF COMPETITIVE RIVALRY
6.13 KEY STAKEHOLDERS AND BUYING CRITERIA
6.13.1 KEY STAKEHOLDERS IN BUYING PROCESS
6.13.2 BUYING CRITERIA
6.14 MACROECONOMIC OUTLOOK
6.14.1 GDP TRENDS AND FORECAST, BY COUNTRY
6.15 CASE STUDY ANALYSIS
6.15.1 ADVANCEMENTS IN MICROPARTICLE ANALYSIS: LEVERAGING RAMAN MICROSCOPY FOR ENHANCED IDENTIFICATION AND CHARACTERIZATION
6.15.2 MICROPLASTIC DETECTION AND REMEDIATION THROUGH EFFICIENT INTERFACIAL SOLAR EVAPORATION FOR IMMACULATE WATER PRODUCTION
7 MICROPLASTIC DETECTION MARKET, BY TYPE
7.1 INTRODUCTION
7.2 POLYETHYLENE
7.2.1 INCREASING DEMAND FOR EFFECTIVE ENVIRONMENTAL POLLUTION CONTROL TO DRIVE MARKET
7.3 POLYSTYRENE
7.3.1 ADVANCED DETECTION AND MANAGEMENT STRATEGIES FOR POLYSTYRENE MICROPLASTICS TO DRIVE DEMAND
7.4 POLYPROPYLENE
7.4.1 PRESSING NEED FOR NON-DESTRUCTIVE EXAMINATION OF MICROPLASTICS TO DRIVE DEMAND
7.5 POLYTETRAFLUOROETHYLENE
7.5.1 ABILITY TO ENSURE RELIABLE AND RESILIENT CONNECTIONS IN CRITICAL SYSTEMS TO FUEL DEMAND
7.6 OTHER TYPES
7.6.1 POLYETHYLENE TEREPHTHALATE
7.6.2 POLYURETHANE
8 MICROPLASTIC DETECTION MARKET, BY MEDIUM
8.1 INTRODUCTION
8.2 WATER
8.2.1 URGENT NEED FOR BETTER DETECTION AND REGULATION OF PLASTIC WASTE IN WATER SYSTEMS TO DRIVE MARKET
8.3 SOIL
8.3.1 NEED TO CURB MICROPLASTIC CONTAMINATION IN AGRICULTURE TO DRIVE MARKET
8.4 AIR
8.4.1 PRESSING NEED TO CURB GROWTH OF AIRBORNE MICROPLASTICS TO DRIVE MARKET
9 MICROPLASTIC DETECTION MARKET, BY SIZE
9.1 INTRODUCTION
9.2 $$$1 MM
9.3 1–3 MM
9.4 3–5 MM
10 MICROPLASTIC DETECTION MARKET, BY TECHNOLOGY
10.1 INTRODUCTION
10.2 FTIR SPECTROSCOPY
10.2.1 EFFECTIVE TECHNIQUE TO IDENTIFY AND QUANTIFY MICROPLASTICS
10.3 MICRO-RAMAN SPECTROSCOPY
10.3.1 EFFICIENT IN PRODUCING DISTINCT CHEMICAL FINGERPRINT FOR POLYMERS
10.4 PYROLYSIS-GAS CHROMATOGRAPHY-MASS SPECTROMETRY (PY-GC-MS)
10.4.1 SOPHISTICATED PROCEDURE FOR DETERMINING PYROLYSIS GAS IN SUSPENDED SOLID PARTICLES
10.5 LIQUID CHROMATOGRAPHY (LC) WITH MASS SPECTROMETRY (MS)
10.5.1 ADVANCED DETECTION OF MICROPLASTICS THROUGH DEPOLYMERIZATION ANALYSIS
10.6 FLOW CYTOMETRY
10.6.1 ACCURATE IDENTIFICATION OF MICROPLASTICS THROUGH UNIQUE POLYMER SIGNATURES
10.7 SCANNING ELECTRON MICROSCOPY (SEM)
10.7.1 PROVIDES HIGH-RESOLUTION IMAGES OF SURFACE STRUCTURES
10.8 OTHER TECHNOLOGIES
10.8.1 HYPERSPECTRAL IMAGING
10.8.2 THERMOGRAVIMETRIC ANALYSIS
11 MICROPLASTIC DETECTION MARKET, BY END–USE INDUSTRY
11.1 INTRODUCTION
11.2 WATER TREATMENT
11.2.1 GROWING ADOPTION TO REVOLUTIONIZE HEAVY-DUTY MANUFACTURING TO DRIVE MARKET
11.3 PACKAGING
11.3.1 NEED FOR MONITORING USE OF BIODEGRADABLE MATERIAL TO DRIVE MARKET
11.4 COSMETICS & PERSONAL CARE
11.4.1 INCREASING DEMAND FOR NATURALLY EXFOLIATING SUBSTANCES TO DRIVE MARKET
11.5 FOOD & BEVERAGE
11.5.1 COMBATING MICROPLASTIC CONTAMINATION FOR SAFER CONSUMPTION TO BOOST DEMAND
11.6 TEXTILES
11.6.1 NEED FOR REDUCING MICROFIBER EMISSIONS IN FABRIC PRODUCTION TO DRIVE MARKET
11.7 OTHER END–USE INDUSTRIES
11.7.1 AGRICULTURE
11.7.2 CONSTRUCTION
12 MICROPLASTIC DETECTION MARKET, BY REGION
12.1 INTRODUCTION
12.2 ASIA PACIFIC
12.2.1 CHINA
12.2.1.1 Growing concerns over microplastics from textile industry to drive market
12.2.2 JAPAN
12.2.2.1 Wide adoption of advanced technologies in tackling emerging environmental challenges to drive market
12.2.3 INDIA
12.2.3.1 Emphasis on implementing technologies to measure and monitor microplastic pollution to boost market
12.2.4 SOUTH KOREA
12.2.4.1 Significant investments in R&D in developing advanced technologies to drive market
12.2.5 REST OF ASIA PACIFIC
12.3 NORTH AMERICA
12.3.1 US
12.3.1.1 Stringent regulations on plastic use to drive market
12.3.2 CANADA
12.3.2.1 Commitment to water conservation to boost market
12.3.3 MEXICO
12.3.3.1 Increased plastic use and regulatory pressures to propel market
12.4 EUROPE
12.4.1 GERMANY
12.4.1.1 Heightened consumer concerns over microplastics in food & beverages to drive market
12.4.2 ITALY
12.4.2.1 Prominent fashion industry to sustain market
12.4.3 FRANCE
12.4.3.1 Increasing awareness, regulatory compliance, and environmental protection efforts to drive market
12.4.4 UK
12.4.4.1 Increasing demand for detection technologies for cosmetics to drive market
12.4.5 SPAIN
12.4.5.1 Pressing need to curb industrial pollution to drive market
12.4.6 RUSSIA
12.4.6.1 Stringent regulations on plastic packaging and push for sustainable packaging to drive market
12.4.7 REST OF EUROPE
12.5 MIDDLE EAST & AFRICA
12.5.1 GCC COUNTRIES
12.5.1.1 Saudi Arabia
12.5.1.1.1 Participation in international agreements and initiatives aimed at reducing plastic pollution to drive market
12.5.1.2 UAE
12.5.1.2.1 Strategic location and economic diversification to drive market
12.5.1.3 Rest of GCC countries
12.5.1.4 South Africa
12.5.1.4.1 Increased funding for research & development in environmental sciences and pollution control to boost market
12.5.1.5 Rest of Middle East & Africa
12.6 SOUTH AMERICA
12.6.1 ARGENTINA
12.6.1.1 Control of agricultural runoff to drive market
12.6.2 BRAZIL
12.6.2.1 Demand for exports of food products to boost market
12.6.3 REST OF SOUTH AMERICA
13 COMPETITIVE LANDSCAPE
13.1 INTRODUCTION
13.2 KEY PLAYER STRATEGIES/RIGHT TO WIN
13.2.1 OVERVIEW OF STRATEGIES ADOPTED BY KEY MICROPLASTIC DETECTION MANUFACTURERS
13.3 MARKET SHARE ANALYSIS
13.4 REVENUE ANALYSIS, 2020–2024
13.5 COMPANY EVALUATION MATRIX: KEY PLAYERS, 2023
13.5.1 STARS
13.5.2 EMERGING LEADERS
13.5.3 PERVASIVE PLAYERS
13.5.4 PARTICIPANTS
13.5.5 COMPANY FOOTPRINT: KEY PLAYERS, 2023
13.5.5.1 Company footprint
13.5.5.2 Type footprint
13.5.5.3 Technology footprint
13.5.5.4 End-use industry footprint
13.5.5.5 Region footprint
13.6 COMPANY EVALUATION MATRIX: STARTUPS/SMES, 2023
13.6.1 PROGRESSIVE COMPANIES
13.6.2 RESPONSIVE COMPANIES
13.6.3 DYNAMIC COMPANIES
13.6.4 STARTING BLOCKS
13.6.5 COMPETITIVE BENCHMARKING: STARTUPS/SMES, 2023
13.6.5.1 Detailed list of key startups/SMES
13.6.5.2 Competitive benchmarking of key startups/SMEs
13.7 BRAND/PRODUCT COMPARATIVE ANALYSIS
13.8 COMPANY VALUATION AND FINANCIAL METRICS
13.9 COMPETITIVE SCENARIO AND TRENDS
13.9.1 PRODUCT LAUNCHES
13.9.2 EXPANSIONS
13.9.3 DEALS
14 COMPANY PROFILES
14.1 KEY PLAYERS
14.1.1 THERMO FISHER SCIENTIFIC INC.
14.1.1.1 Business overview
14.1.1.2 Products/Solutions/Services offered
14.1.1.3 Recent developments
14.1.1.3.1 Product launches
14.1.1.3.2 Others
14.1.1.4 MnM view
14.1.1.4.1 Right to win
14.1.1.4.2 Strategic choices
14.1.1.4.3 Weaknesses and competitive threats
14.1.2 AGILENT TECHNOLOGIES, INC.
14.1.2.1 Business overview
14.1.2.2 Products/Solutions/Services offered
14.1.2.3 Recent developments
14.1.2.3.1 Expansions
14.1.2.3.2 Others
14.1.2.4 MnM view
14.1.2.4.1 Right to win
14.1.2.4.2 Strategic choices
14.1.2.4.3 Weaknesses and competitive threats
14.1.3 BRUKER
14.1.3.1 Business overview
14.1.3.2 Products/Solutions/Services offered
14.1.3.3 Recent developments
14.1.3.3.1 Deals
14.1.3.3.2 Others
14.1.3.4 MnM view
14.1.3.4.1 Right to win
14.1.3.4.2 Strategic choices
14.1.3.4.3 Weaknesses and competitive threats
14.1.4 SHIMADZU CORPORATION
14.1.4.1 Business overview
14.1.4.2 Products/Solutions/Services offered
14.1.4.3 Recent developments
14.1.4.3.1 Product launches
14.1.4.3.2 Deals
14.1.4.3.3 Others
14.1.4.4 MnM view
14.1.4.4.1 Right to win
14.1.4.4.2 Strategic choices
14.1.4.4.3 Weaknesses and competitive threats
14.1.5 JEOL LTD.
14.1.5.1 Business overview
14.1.5.2 Products/Solutions/Services offered
14.1.5.3 Recent developments
14.1.5.3.1 Product launches
14.1.5.4 MnM view
14.1.5.4.1 Right to win
14.1.5.4.2 Strategic choices
14.1.5.4.3 Weaknesses and competitive threats
14.1.6 METTLER TOLEDO
14.1.6.1 Business overview
14.1.6.2 Products/Solutions/Services offered
14.1.6.3 MnM view
14.1.6.3.1 Right to win
14.1.6.3.2 Strategic choices
14.1.6.3.3 Weaknesses and competitive threats
14.1.7 OXFORD INSTRUMENTS
14.1.7.1 Business overview
14.1.7.2 Products/Solutions/Services offered
14.1.7.3 Recent developments
14.1.7.3.1 Deals
14.1.7.3.2 Others
14.1.7.4 MnM view
14.1.7.4.1 Right to win
14.1.7.4.2 Strategic choices
14.1.7.4.3 Weaknesses and competitive threats
14.1.8 ZEISS GROUP
14.1.8.1 Business overview
14.1.8.2 Products/Solutions/Services offered
14.1.8.3 Recent developments
14.1.8.3.1 Others
14.1.8.4 MnM view
14.1.8.4.1 Right to win
14.1.8.4.2 Strategic choices
14.1.8.4.3 Weaknesses and competitive threats
14.1.9 DANAHER CORPORATION
14.1.9.1 Business overview
14.1.9.2 Products/Solutions/Services offered
14.1.9.3 Recent developments
14.1.9.3.1 Product launches
14.1.9.4 MnM view
14.1.9.4.1 Right to win
14.1.9.4.2 Strategic choices
14.1.9.4.3 Weaknesses and competitive threats
14.1.10 PERKINELMER
14.1.10.1 Business overview
14.1.10.2 Products/Solutions/Services offered
14.1.10.3 MnM view
14.1.10.3.1 Right to win
14.1.10.3.2 Strategic choices
14.1.10.3.3 Weaknesses and competitive threats
14.1.11 ENDRESS+HAUSER GROUP SERVICES AG
14.1.11.1 Business overview
14.1.11.2 Products/Solutions/Services offered
14.1.11.3 Recent developments
14.1.11.3.1 Others
14.1.11.4 MnM view
14.1.11.4.1 Right to win
14.1.11.4.2 Strategic choices
14.1.11.4.3 Weaknesses and competitive threats
14.2 OTHER PLAYERS
14.2.1 RENISHAW PLC
14.2.2 MALVERN PANALYTICAL LTD
14.2.3 JASCO
14.2.4 TESCAN GROUP, A.S.
14.2.5 LAMBDA SCIENTIFIC PTY LTD
14.2.6 OCEAN OPTICS
14.2.7 EDINBURGH INSTRUMENTS
14.2.8 LIGHTNOVO APS
14.2.9 HANGZHOU TIETAI AUTOMATION TECHNOLOGY CO., LTD.
14.2.10 TECHNOS INSTRUMENTS
14.2.11 TOKYO INSTRUMENTS, INC.
15 APPENDIX
15.1 DISCUSSION GUIDE
15.2 KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL
15.3 CUSTOMIZATION OPTIONS
15.4 RELATED REPORTS
15.5 AUTHOR DETAILS
1.1 STUDY OBJECTIVES
1.2 MARKET DEFINITION
1.3 STUDY SCOPE
1.3.1 MARKETS COVERED
1.3.2 YEARS CONSIDERED
1.3.3 INCLUSIONS AND EXCLUSIONS
1.3.4 CURRENCY CONSIDERED
1.3.5 UNITS CONSIDERED
1.4 LIMITATIONS
1.5 STAKEHOLDERS
2 RESEARCH METHODOLOGY
2.1 RESEARCH DATA
2.1.1 SECONDARY DATA
2.1.1.1 Key data from secondary sources
2.1.2 PRIMARY DATA
2.1.2.1 Key data from primary sources
2.1.2.2 Key primary sources
2.1.2.3 Key participants for primary interviews
2.1.2.4 Breakdown of interviews with experts
2.1.2.5 Key industry insights
2.2 BASE NUMBER CALCULATION
2.2.1 SUPPLY-SIDE ANALYSIS
2.2.2 DEMAND-SIDE ANALYSIS
2.3 GROWTH FORECAST
2.3.1 SUPPLY SIDE
2.3.2 DEMAND SIDE
2.4 MARKET SIZE ESTIMATION
2.4.1 BOTTOM-UP APPROACH
2.4.2 TOP-DOWN APPROACH
2.5 DATA TRIANGULATION
2.6 RESEARCH ASSUMPTIONS
2.7 GROWTH FORECAST
2.8 RISK ASSESSMENT
2.9 FACTOR ANALYSIS
3 EXECUTIVE SUMMARY
4 PREMIUM INSIGHTS
4.1 ATTRACTIVE OPPORTUNITIES FOR PLAYERS IN MICROPLASTIC DETECTION MARKET
4.2 MICROPLASTIC DETECTION MARKET, BY TYPE
4.3 MICROPLASTIC DETECTION MARKET, BY KEY COUNTRY
5 MARKET OVERVIEW
5.1 INTRODUCTION
5.2 MARKET DYNAMICS
5.2.1 DRIVERS
5.2.1.1 Rising public concerns over effects of plastic pollution on ecosystems and health
5.2.1.2 Advancements in spectroscopy, microscopy, and sensor technologies
5.2.2 RESTRAINTS
5.2.2.1 Absence of standardized detection methods
5.2.3 OPPORTUNITIES
5.2.3.1 Advancements in machine learning and AI
5.2.3.2 Development of low-cost, portable detection systems for real-time monitoring and field studies
5.2.4 CHALLENGES
5.2.4.1 Achieving required sensitivity and resolution with single analytical technology
5.2.4.2 Inconsistencies in detection and arbitrary reporting due to diverse microplastics sizes and shapes
5.3 GENERATIVE AI
5.3.1 INTRODUCTION
5.3.2 IMPACT ON MICROPLASTIC DETECTION MARKET
6 INDUSTRY TRENDS
6.1 INTRODUCTION
6.2 TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS
6.3 VALUE CHAIN ANALYSIS
6.4 INVESTMENT AND FUNDING SCENARIO
6.5 PRICING ANALYSIS
6.5.1 AVERAGE SELLING PRICE TREND, BY REGION
6.5.2 AVERAGE SELLING PRICE TREND, BY TYPE
6.5.3 AVERAGE SELLING PRICE TREND OF KEY PLAYERS, BY TYPE
6.6 ECOSYSTEM ANALYSIS
6.7 TECHNOLOGY ANALYSIS
6.7.1 KEY TECHNOLOGIES
6.7.2 COMPLEMENTARY TECHNOLOGIES
6.7.3 ADJACENT TECHNOLOGIES
6.8 PATENT ANALYSIS
6.8.1 METHODOLOGY
6.8.2 GRANTED PATENTS
6.8.3 INSIGHTS
6.8.4 LEGAL STATUS
6.8.5 JURISDICTION ANALYSIS
6.8.6 TOP APPLICANTS
6.9 TRADE ANALYSIS
6.9.1 IMPORT SCENARIO (HS CODE 902730)
6.9.2 EXPORT SCENARIO (HS CODE 902730)
6.10 KEY CONFERENCES AND EVENTS, 2024–2025
6.11 STANDARDS AND REGULATORY LANDSCAPE
6.11.1 REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS
6.11.2 STANDARDS
6.12 PORTER’S FIVE FORCES ANALYSIS
6.12.1 THREAT OF NEW ENTRANTS
6.12.2 THREAT OF SUBSTITUTES
6.12.3 BARGAINING POWER OF SUPPLIERS
6.12.4 BARGAINING POWER OF BUYERS
6.12.5 INTENSITY OF COMPETITIVE RIVALRY
6.13 KEY STAKEHOLDERS AND BUYING CRITERIA
6.13.1 KEY STAKEHOLDERS IN BUYING PROCESS
6.13.2 BUYING CRITERIA
6.14 MACROECONOMIC OUTLOOK
6.14.1 GDP TRENDS AND FORECAST, BY COUNTRY
6.15 CASE STUDY ANALYSIS
6.15.1 ADVANCEMENTS IN MICROPARTICLE ANALYSIS: LEVERAGING RAMAN MICROSCOPY FOR ENHANCED IDENTIFICATION AND CHARACTERIZATION
6.15.2 MICROPLASTIC DETECTION AND REMEDIATION THROUGH EFFICIENT INTERFACIAL SOLAR EVAPORATION FOR IMMACULATE WATER PRODUCTION
7 MICROPLASTIC DETECTION MARKET, BY TYPE
7.1 INTRODUCTION
7.2 POLYETHYLENE
7.2.1 INCREASING DEMAND FOR EFFECTIVE ENVIRONMENTAL POLLUTION CONTROL TO DRIVE MARKET
7.3 POLYSTYRENE
7.3.1 ADVANCED DETECTION AND MANAGEMENT STRATEGIES FOR POLYSTYRENE MICROPLASTICS TO DRIVE DEMAND
7.4 POLYPROPYLENE
7.4.1 PRESSING NEED FOR NON-DESTRUCTIVE EXAMINATION OF MICROPLASTICS TO DRIVE DEMAND
7.5 POLYTETRAFLUOROETHYLENE
7.5.1 ABILITY TO ENSURE RELIABLE AND RESILIENT CONNECTIONS IN CRITICAL SYSTEMS TO FUEL DEMAND
7.6 OTHER TYPES
7.6.1 POLYETHYLENE TEREPHTHALATE
7.6.2 POLYURETHANE
8 MICROPLASTIC DETECTION MARKET, BY MEDIUM
8.1 INTRODUCTION
8.2 WATER
8.2.1 URGENT NEED FOR BETTER DETECTION AND REGULATION OF PLASTIC WASTE IN WATER SYSTEMS TO DRIVE MARKET
8.3 SOIL
8.3.1 NEED TO CURB MICROPLASTIC CONTAMINATION IN AGRICULTURE TO DRIVE MARKET
8.4 AIR
8.4.1 PRESSING NEED TO CURB GROWTH OF AIRBORNE MICROPLASTICS TO DRIVE MARKET
9 MICROPLASTIC DETECTION MARKET, BY SIZE
9.1 INTRODUCTION
9.2 $$$1 MM
9.3 1–3 MM
9.4 3–5 MM
10 MICROPLASTIC DETECTION MARKET, BY TECHNOLOGY
10.1 INTRODUCTION
10.2 FTIR SPECTROSCOPY
10.2.1 EFFECTIVE TECHNIQUE TO IDENTIFY AND QUANTIFY MICROPLASTICS
10.3 MICRO-RAMAN SPECTROSCOPY
10.3.1 EFFICIENT IN PRODUCING DISTINCT CHEMICAL FINGERPRINT FOR POLYMERS
10.4 PYROLYSIS-GAS CHROMATOGRAPHY-MASS SPECTROMETRY (PY-GC-MS)
10.4.1 SOPHISTICATED PROCEDURE FOR DETERMINING PYROLYSIS GAS IN SUSPENDED SOLID PARTICLES
10.5 LIQUID CHROMATOGRAPHY (LC) WITH MASS SPECTROMETRY (MS)
10.5.1 ADVANCED DETECTION OF MICROPLASTICS THROUGH DEPOLYMERIZATION ANALYSIS
10.6 FLOW CYTOMETRY
10.6.1 ACCURATE IDENTIFICATION OF MICROPLASTICS THROUGH UNIQUE POLYMER SIGNATURES
10.7 SCANNING ELECTRON MICROSCOPY (SEM)
10.7.1 PROVIDES HIGH-RESOLUTION IMAGES OF SURFACE STRUCTURES
10.8 OTHER TECHNOLOGIES
10.8.1 HYPERSPECTRAL IMAGING
10.8.2 THERMOGRAVIMETRIC ANALYSIS
11 MICROPLASTIC DETECTION MARKET, BY END–USE INDUSTRY
11.1 INTRODUCTION
11.2 WATER TREATMENT
11.2.1 GROWING ADOPTION TO REVOLUTIONIZE HEAVY-DUTY MANUFACTURING TO DRIVE MARKET
11.3 PACKAGING
11.3.1 NEED FOR MONITORING USE OF BIODEGRADABLE MATERIAL TO DRIVE MARKET
11.4 COSMETICS & PERSONAL CARE
11.4.1 INCREASING DEMAND FOR NATURALLY EXFOLIATING SUBSTANCES TO DRIVE MARKET
11.5 FOOD & BEVERAGE
11.5.1 COMBATING MICROPLASTIC CONTAMINATION FOR SAFER CONSUMPTION TO BOOST DEMAND
11.6 TEXTILES
11.6.1 NEED FOR REDUCING MICROFIBER EMISSIONS IN FABRIC PRODUCTION TO DRIVE MARKET
11.7 OTHER END–USE INDUSTRIES
11.7.1 AGRICULTURE
11.7.2 CONSTRUCTION
12 MICROPLASTIC DETECTION MARKET, BY REGION
12.1 INTRODUCTION
12.2 ASIA PACIFIC
12.2.1 CHINA
12.2.1.1 Growing concerns over microplastics from textile industry to drive market
12.2.2 JAPAN
12.2.2.1 Wide adoption of advanced technologies in tackling emerging environmental challenges to drive market
12.2.3 INDIA
12.2.3.1 Emphasis on implementing technologies to measure and monitor microplastic pollution to boost market
12.2.4 SOUTH KOREA
12.2.4.1 Significant investments in R&D in developing advanced technologies to drive market
12.2.5 REST OF ASIA PACIFIC
12.3 NORTH AMERICA
12.3.1 US
12.3.1.1 Stringent regulations on plastic use to drive market
12.3.2 CANADA
12.3.2.1 Commitment to water conservation to boost market
12.3.3 MEXICO
12.3.3.1 Increased plastic use and regulatory pressures to propel market
12.4 EUROPE
12.4.1 GERMANY
12.4.1.1 Heightened consumer concerns over microplastics in food & beverages to drive market
12.4.2 ITALY
12.4.2.1 Prominent fashion industry to sustain market
12.4.3 FRANCE
12.4.3.1 Increasing awareness, regulatory compliance, and environmental protection efforts to drive market
12.4.4 UK
12.4.4.1 Increasing demand for detection technologies for cosmetics to drive market
12.4.5 SPAIN
12.4.5.1 Pressing need to curb industrial pollution to drive market
12.4.6 RUSSIA
12.4.6.1 Stringent regulations on plastic packaging and push for sustainable packaging to drive market
12.4.7 REST OF EUROPE
12.5 MIDDLE EAST & AFRICA
12.5.1 GCC COUNTRIES
12.5.1.1 Saudi Arabia
12.5.1.1.1 Participation in international agreements and initiatives aimed at reducing plastic pollution to drive market
12.5.1.2 UAE
12.5.1.2.1 Strategic location and economic diversification to drive market
12.5.1.3 Rest of GCC countries
12.5.1.4 South Africa
12.5.1.4.1 Increased funding for research & development in environmental sciences and pollution control to boost market
12.5.1.5 Rest of Middle East & Africa
12.6 SOUTH AMERICA
12.6.1 ARGENTINA
12.6.1.1 Control of agricultural runoff to drive market
12.6.2 BRAZIL
12.6.2.1 Demand for exports of food products to boost market
12.6.3 REST OF SOUTH AMERICA
13 COMPETITIVE LANDSCAPE
13.1 INTRODUCTION
13.2 KEY PLAYER STRATEGIES/RIGHT TO WIN
13.2.1 OVERVIEW OF STRATEGIES ADOPTED BY KEY MICROPLASTIC DETECTION MANUFACTURERS
13.3 MARKET SHARE ANALYSIS
13.4 REVENUE ANALYSIS, 2020–2024
13.5 COMPANY EVALUATION MATRIX: KEY PLAYERS, 2023
13.5.1 STARS
13.5.2 EMERGING LEADERS
13.5.3 PERVASIVE PLAYERS
13.5.4 PARTICIPANTS
13.5.5 COMPANY FOOTPRINT: KEY PLAYERS, 2023
13.5.5.1 Company footprint
13.5.5.2 Type footprint
13.5.5.3 Technology footprint
13.5.5.4 End-use industry footprint
13.5.5.5 Region footprint
13.6 COMPANY EVALUATION MATRIX: STARTUPS/SMES, 2023
13.6.1 PROGRESSIVE COMPANIES
13.6.2 RESPONSIVE COMPANIES
13.6.3 DYNAMIC COMPANIES
13.6.4 STARTING BLOCKS
13.6.5 COMPETITIVE BENCHMARKING: STARTUPS/SMES, 2023
13.6.5.1 Detailed list of key startups/SMES
13.6.5.2 Competitive benchmarking of key startups/SMEs
13.7 BRAND/PRODUCT COMPARATIVE ANALYSIS
13.8 COMPANY VALUATION AND FINANCIAL METRICS
13.9 COMPETITIVE SCENARIO AND TRENDS
13.9.1 PRODUCT LAUNCHES
13.9.2 EXPANSIONS
13.9.3 DEALS
14 COMPANY PROFILES
14.1 KEY PLAYERS
14.1.1 THERMO FISHER SCIENTIFIC INC.
14.1.1.1 Business overview
14.1.1.2 Products/Solutions/Services offered
14.1.1.3 Recent developments
14.1.1.3.1 Product launches
14.1.1.3.2 Others
14.1.1.4 MnM view
14.1.1.4.1 Right to win
14.1.1.4.2 Strategic choices
14.1.1.4.3 Weaknesses and competitive threats
14.1.2 AGILENT TECHNOLOGIES, INC.
14.1.2.1 Business overview
14.1.2.2 Products/Solutions/Services offered
14.1.2.3 Recent developments
14.1.2.3.1 Expansions
14.1.2.3.2 Others
14.1.2.4 MnM view
14.1.2.4.1 Right to win
14.1.2.4.2 Strategic choices
14.1.2.4.3 Weaknesses and competitive threats
14.1.3 BRUKER
14.1.3.1 Business overview
14.1.3.2 Products/Solutions/Services offered
14.1.3.3 Recent developments
14.1.3.3.1 Deals
14.1.3.3.2 Others
14.1.3.4 MnM view
14.1.3.4.1 Right to win
14.1.3.4.2 Strategic choices
14.1.3.4.3 Weaknesses and competitive threats
14.1.4 SHIMADZU CORPORATION
14.1.4.1 Business overview
14.1.4.2 Products/Solutions/Services offered
14.1.4.3 Recent developments
14.1.4.3.1 Product launches
14.1.4.3.2 Deals
14.1.4.3.3 Others
14.1.4.4 MnM view
14.1.4.4.1 Right to win
14.1.4.4.2 Strategic choices
14.1.4.4.3 Weaknesses and competitive threats
14.1.5 JEOL LTD.
14.1.5.1 Business overview
14.1.5.2 Products/Solutions/Services offered
14.1.5.3 Recent developments
14.1.5.3.1 Product launches
14.1.5.4 MnM view
14.1.5.4.1 Right to win
14.1.5.4.2 Strategic choices
14.1.5.4.3 Weaknesses and competitive threats
14.1.6 METTLER TOLEDO
14.1.6.1 Business overview
14.1.6.2 Products/Solutions/Services offered
14.1.6.3 MnM view
14.1.6.3.1 Right to win
14.1.6.3.2 Strategic choices
14.1.6.3.3 Weaknesses and competitive threats
14.1.7 OXFORD INSTRUMENTS
14.1.7.1 Business overview
14.1.7.2 Products/Solutions/Services offered
14.1.7.3 Recent developments
14.1.7.3.1 Deals
14.1.7.3.2 Others
14.1.7.4 MnM view
14.1.7.4.1 Right to win
14.1.7.4.2 Strategic choices
14.1.7.4.3 Weaknesses and competitive threats
14.1.8 ZEISS GROUP
14.1.8.1 Business overview
14.1.8.2 Products/Solutions/Services offered
14.1.8.3 Recent developments
14.1.8.3.1 Others
14.1.8.4 MnM view
14.1.8.4.1 Right to win
14.1.8.4.2 Strategic choices
14.1.8.4.3 Weaknesses and competitive threats
14.1.9 DANAHER CORPORATION
14.1.9.1 Business overview
14.1.9.2 Products/Solutions/Services offered
14.1.9.3 Recent developments
14.1.9.3.1 Product launches
14.1.9.4 MnM view
14.1.9.4.1 Right to win
14.1.9.4.2 Strategic choices
14.1.9.4.3 Weaknesses and competitive threats
14.1.10 PERKINELMER
14.1.10.1 Business overview
14.1.10.2 Products/Solutions/Services offered
14.1.10.3 MnM view
14.1.10.3.1 Right to win
14.1.10.3.2 Strategic choices
14.1.10.3.3 Weaknesses and competitive threats
14.1.11 ENDRESS+HAUSER GROUP SERVICES AG
14.1.11.1 Business overview
14.1.11.2 Products/Solutions/Services offered
14.1.11.3 Recent developments
14.1.11.3.1 Others
14.1.11.4 MnM view
14.1.11.4.1 Right to win
14.1.11.4.2 Strategic choices
14.1.11.4.3 Weaknesses and competitive threats
14.2 OTHER PLAYERS
14.2.1 RENISHAW PLC
14.2.2 MALVERN PANALYTICAL LTD
14.2.3 JASCO
14.2.4 TESCAN GROUP, A.S.
14.2.5 LAMBDA SCIENTIFIC PTY LTD
14.2.6 OCEAN OPTICS
14.2.7 EDINBURGH INSTRUMENTS
14.2.8 LIGHTNOVO APS
14.2.9 HANGZHOU TIETAI AUTOMATION TECHNOLOGY CO., LTD.
14.2.10 TECHNOS INSTRUMENTS
14.2.11 TOKYO INSTRUMENTS, INC.
15 APPENDIX
15.1 DISCUSSION GUIDE
15.2 KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL
15.3 CUSTOMIZATION OPTIONS
15.4 RELATED REPORTS
15.5 AUTHOR DETAILS
