PFAS Testing Market

Market Definition

PFAS testing involves the identification and quantification of per- and polyfluoroalkyl substances (PFAS) in environmental, food, and biological samples using advanced analytical techniques. 

The market encompasses a wide range of laboratory instruments, detection methods, and services aimed at supporting regulatory compliance, environmental monitoring, and public health protection.

PFAS Testing Market Overview

The global PFAS testing market size was valued at USD 382.3 million in 2024 and is projected to grow from USD 430.2 million in 2025 to USD 1,101.3 million by 2032, exhibiting a CAGR of 14.37% during the forecast period. 

This growth is attributed to the increasing implementation of PFAS testing across critical sectors such as environmental monitoring, food safety, and public health. Growing regulatory pressure to detect and limit PFAS contamination in drinking water, agricultural produce, and consumer goods is fueling widespread adoption of testing solutions.

• In April 2025, Colorado's health department introduced a pilot program using Cyclopure’s PFAS test kits to assess contamination in private wells. Homeowners collected samples using a DEXSORB disc, with analysis done at Cyclopure’s lab for up to 55 PFAS compounds. The initiative supports safer drinking water through accessible, data-driven testing.

Major companies operating in the PFAS testing industry are Bureau Veritas, Pace, Merit Laboratories, Inc., SGS Société Générale de Surveillance SA, Eurofins Scientific, Torrent Laboratory, QIMA Limited, HQTS Group Ltd., Waters Corporation, TÜV SÜD, Thermo Fisher Scientific Inc., Enthalpy Analytical, Hohenstein, Shimadzu Scientific Instruments, and Agilent Technologies, Inc.

Growing global focus on environmental safety, human health risk mitigation, and compliance with evolving legal standards is further accelerating market expansion. 

Additionally, advancements in analytical testing technologies, including mass spectrometry and liquid chromatography, along with rising investments in laboratory infrastructure and testing capabilities, are contributing to the market growth.

Key Highlights

1. The PFAS testing market size was valued at USD 382.3 million in 2024.
2. The market is projected to grow at a CAGR of 14.37% from 2025 to 2032.
3. North America held a market share of 37.21% in 2024, with a valuation of USD 142.3 million.
4. The consumables segment garnered USD 184.7 million in revenue in 2024.
5. The water testing segment is expected to reach USD 488.1 million by 2032.
6. The industrial users segment is anticipated to witness the fastest CAGR of 15.88% over the forecast period.
7. Asia Pacific is anticipated to grow at a CAGR of 15.06% through the projection period.

Market Driver

Increasing Environmental and Public Health Concerns

The growth of the market is propelled by increasing environmental and public health concerns related to long-term chemical exposure. Rising awareness about the adverse effects of PFAS contamination, such as cancer, immune system suppression, hormonal disruption, and developmental issues, is fueling the demand for early detection and constant monitoring.

Communities, regulatory bodies, and industries are prioritizing PFAS testing to safeguard drinking water, food sources, and consumer products from toxic exposure. According to a study by the U.S. Geological Survey, at least 45% of tap water sources across the United States are estimated to contain one or more types of per- and polyfluoroalkyl substances (PFAS). 

This shift is further supported by the increasing demand for transparency, environmental accountability, and risk prevention in public health management. The focus on mitigating long-term health risks and ensuring regulatory compliance is compelling public and private sectors to invest in comprehensive PFAS testing solutions, thereby accelerating market growth.

Market Challenge

Lack of Standardized Testing Protocols

The lack of standardized testing protocols presents a significant challenge to the growth and reliability of the PFAS testing market. Variations in sampling methods, analytical techniques, and reporting criteria across laboratories and regulatory jurisdictions lead to inconsistent results, making it difficult to ensure comparability, accuracy, and regulatory compliance. 

This creates operational inefficiencies and increases the pressure on laboratories to develop and validate their methods, which raises costs and delays testing and reporting, especially while adapting to newly emerging PFAS compounds or shifting regulatory requirements.

To address this challenge, industry stakeholders and regulatory agencies are working on developing harmonized testing guidelines and reference standards. 

Greater collaborations between international organizations, laboratories, and policymakers are also fostering method standardization. As standardized frameworks become widely adopted, they are expected to enhance data quality, facilitate regulatory alignment, and support the broader adoption of PFAS testing across sectors.

• In December 2024, UDS Health collaborated with Relentless Health to introduce a PFAS testing program tailored for fire departments. The program provides user-friendly, accurate testing kits to help firefighters monitor exposure to PFAS, which is commonly found in firefighting gear and environments. This collaboration aims to support firefighter health by enabling early detection and improved management of toxin-related risks.

Market Trend

Rapid Adoption of Advanced Analytical Methods

The rapid adoption of advanced analytical methods is transforming the market by enabling highly sensitive, accurate, and comprehensive detection capabilities. Liquid chromatography-tandem mass spectrometry (LC-MS/MS), gas chromatography-mass spectrometry (GC-MS), and high-resolution mass spectrometry are becoming standard tools in laboratories to identify trace levels of legacy and emerging PFAS compounds. 

These methods enable the detection of a broader range of PFAS variants across complex matrices, including drinking water, soil, food, and human serum. They also support the identification of ultra-short-chain PFAS and precursor compounds that were difficult to quantify with conventional techniques. 

This analytical coverage is essential for compliance and for supporting broader environmental surveillance programs. Moreover, ongoing innovations in non-targeted screening, total organic fluorine (TOF) analysis, and automation are streamlining workflows and increasing throughput.

• In October 2024, RJ Lee Group collaborated with Shimadzu Scientific Instruments to enhance PFAS testing using advanced LC-MS/MS technology. The collaboration streamlines testing workflows, expands detection capabilities beyond standard PFAS lists, and supports the development of a standardized method with ASTM International for measuring extractable PFAS in consumer products, while improving efficiency and reducing costs.

PFAS Testing Market Report Snapshot

Segmentation	Details
By Product Type	Instruments, Consumables, and Software & Services
By Application	Water Testing, Soil Testing, Serum/Blood Testing, and Others
By End User	Environmental Testing Laboratories (Contract Labs), Industrial Users, Government Agencies, and Others
By Region	North America: U.S., Canada, Mexico
	Europe: France, UK, Spain, Germany, Italy, Russia, Rest of Europe
	Asia-Pacific: China, Japan, India, Australia, ASEAN, South Korea, Rest of Asia-Pacific
	Middle East & Africa: Turkey, U.A.E., Saudi Arabia, South Africa, Rest of Middle East & Africa
	South America: Brazil, Argentina, Rest of South America

Market Segmentation

• By Product Type (Instruments, Consumables, and Software & Services): The consumables segment earned USD 184.7 million in 2024, due to the recurring demand for high-purity reagents, testing kits, and sample preparation materials essential for routine analytical workflows.
• By Application (Water Testing, Soil Testing, Serum/Blood Testing, and Others): The water testing segment held a share of 38.65% in 2024, attributed to stringent regulatory standards and the increased monitoring of drinking water sources for PFAS contamination.
• By End User (Environmental Testing Laboratories (Contract Labs), Industrial Users, Government Agencies, and Others): The environmental testing laboratories (contract labs) segment is projected to reach USD 453.1 million by 2032, owing to the rising outsourcing of PFAS analysis by industries and municipalities seeking specialized expertise and compliance.

PFAS Testing Market Regional Analysis

Based on region, the global market has been classified into North America, Europe, Asia Pacific, the Middle East & Africa, and South America.

North America PFAS testing market share stood at 37.21% in 2024, valued at USD 142.3 million. This dominance is attributed to stringent environmental regulations, heightened public awareness about PFAS-related health risks, and the strong presence of accredited laboratories with advanced testing capabilities. 

The increasing frequency of contamination incidents and legal pressures on industries have accelerated testing initiatives across municipal water systems, industrial discharges, and consumer products. 

The U.S. Environmental Protection Agency (EPA) launched a major plan to tackle PFAS contamination, including expanded testing, stricter regulations, updated disposal guidance, and stronger enforcement to hold polluters accountable.

Collaboration between federal agencies, such as the U.S. Environmental Protection Agency, and private sector laboratories is further driving methodological advancements and data standardization. 

Furthermore, North America's proactive stance on environmental remediation, continuous investments in analytical instrumentation, and workforce training are strengthening its testing capacity and reinforcing its leadership in the global market.

• In May 2025, Veolia North America announced the results of extensive testing at its hazardous waste incineration facility in Port Arthur, Texas. The study demonstrated that high-temperature incineration destroyed over 99.9999% of PFAS, with almost no traces detected in air, water, or ash. The results confirm that incineration is a highly effective and safe method for PFAS waste disposal.

Asia-Pacific PFAS testing industry is set to grow at a CAGR of 15.06% over the forecast period. This growth is attributed to expanding industrial activities, increasing awareness of environmental pollution, and the rising demand for reliable PFAS monitoring across water and soil systems. 

The growing middle-class population, along with growing public concern for health and environmental safety, is encouraging stricter governmental oversight and regulatory development for PFAS contamination. 

Government initiatives aimed at strengthening environmental surveillance, along with rising investments in laboratory infrastructure and analytical capabilities, are supporting the regional testing ecosystem. 

Increased collaboration between international regulatory bodies and local agencies, along with the integration of advanced testing technologies, is enhancing the accessibility and accuracy of PFAS testing services across the region.

Regulatory Frameworks

• In the United States, the Toxic Substances Control Act (TSCA) governs the reporting, assessment, and regulation of chemical substances, including PFAS. It requires manufacturers and importers to submit detailed data on PFAS production, use, and hazards, with recent amendments mandating retrospective reporting and EPA approval for new or renewed uses.
• In Australia, the National Environmental Management Plan for PFAS (PFAS NEMP) provides national guidance on the assessment, remediation, and management of PFAS in soil, water, and waste. Developed by the Heads of EPAs, the latest version (NEMP 3.0) was finalized in 2025 with updated standards and reuse guidelines.
• In the European Union, the Registration, Evaluation, Authorisation, and Restriction of Chemicals (REACH) regulation governs the production and use of chemical substances, including PFAS. It requires companies to register PFAS, assess their risks, and comply with restrictions or authorizations, with several PFAS subject to strict controls due to their persistence and toxicity.

Competitive Landscape

The PFAS testing market comprises a diverse mix of established analytical instrument manufacturers, specialized environmental testing laboratories, and emerging technology providers. Each player is focused on expanding their market footprint through innovation, service diversification, and strategic partnerships. 

Companies are investing heavily in the development of high-sensitivity instruments, automation-enabled platforms, and software solutions to enhance detection capabilities, ensure regulatory compliance, and support high-throughput testing. 

They are also introducing new consumables and reagents tailored for PFAS analysis in complex matrices such as water, soil, and biological samples, thereby improving testing accuracy and efficiency.

Additionally, companies are expanding their efforts and collaborating with government agencies, research institutions, and industry stakeholders to promote standardization and accelerate the adoption of advanced testing methodologies. 

Expansion into emerging markets, along with the integration of digital platforms for data reporting and compliance tracking, is further strengthening competitive positioning across the global PFAS testing ecosystem.

• In March 2025, TÜV Rheinland expanded its global PFAS testing capacity by over 30% to address rising regulatory and industry demand. The initiative includes advanced analytical methods and introduces a new testing standard for textiles and related materials, supporting more accurate detection and compliance with evolving EU regulations.

List of Key Companies in PFAS Testing Market:

• Bureau Veritas
• Pace
• Merit Laboratories, Inc.
• SGS Société Générale de Surveillance SA.
• Eurofins Scientific
• Torrent Laboratory
• QIMA Limited
• HQTS Group Ltd.
• Waters Corporation
• TÜV SÜD
• Thermo Fisher Scientific Inc.
• Enthalpy Analytical
• Hohenstein
• Shimadzu Scientific Instruments
• Agilent Technologies, Inc.

Recent Developments (M&A/Product Launch)

• In October 2024, Lummus Technology launched in-house PFAS analytical services for detecting up to 40 compounds at parts-per-trillion levels with minimal sample preparation. Combined with the electro-oxidation destruction technology, the offering enables comprehensive detection, monitoring, and elimination of PFAS in water and wastewater systems.
• In February 2024, Ovivo Inc. acquired E2metrix Inc. to provide an integrated on-site solution for PFAS destruction in water and wastewater. In pilot trials, the system achieved up to 99% removal of PFOS and PFOA and over 85% reduction of total PFAS, converting contaminants into harmless elements. The acquisition enables effective PFAS elimination at the source, ensuring cleaner water through advanced electrochemical treatment.