The site navigation utilizes arrow, enter, escape, and space bar key commands. Left and right arrows move across top level links and expand / close menus in sub levels. Up and Down arrows will open main level menus and toggle through sub tier links. Enter and space open menus and escape closes them as well. Tab will move on to the next part of the site rather than go through menu items.
PFAS in Semiconductor Manufacturing: Why “Forever Chemicals” Are Becoming a Strategic Challenge
Per and polyfluoroalkyl substances (PFAS) are an emerging environmental and regulatory challenge facing the semiconductor industry. The complication is that PFAS (also called forever chemicals) are not incidental to chip manufacturing—they are engineered into it.
Hundreds of PFAS compounds appear across semiconductor fabrication processes, valued for their durability and stability under extreme manufacturing conditions. Yet those same characteristics are driving increasing scrutiny from regulators, customers, and communities.
For semiconductor manufacturers, the question is no longer whether PFAS will require greater attention—it’s how quickly companies can understand and manage their exposure. Organizations that begin building that understanding today will be far better positioned for what comes next.
The sections below explore why PFAS are essential to semiconductor fabrication, how regulatory and environmental pressures are evolving, and how manufacturers can begin planning their path forward.
Why PFAS Are Essential to Modern Chips
To understand why PFAS present a challenge for the semiconductor industry, it helps to start with the role these compounds play in modern chip manufacturing. PFAS exist in semiconductor fabrication for a reason: their chemistry optimizes process and performance few other chemistries can handle. These compounds are defined by an exceptionally strong carbon fluorine bond, which gives them unusual durability and chemical stability.
In semiconductor production, that stability provides several critical advantages:
Resistance to aggressive chemicals, solvents, and high temperatures
Low surface energy that prevents interference with delicate processes
Durability across hundreds of sequential fabrication steps
Chip fabrication environments often involve strong acids, oxidizers, and plasma processes that would degrade most materials. PFAS compounds maintain their integrity under these conditions, protecting equipment and helping ensure process consistency at the nanometer scale where modern chips are produced.
For now, this makes PFAS largely inseparable from semiconductor manufacturing. So, why is the risk landscape changing?
Why the Risk Landscape Is Changing
While PFAS provide technical advantages, they also present environmental and regulatory challenges. These chemicals are highly persistent—earning them the nickname “forever chemicals”—because they do not break down or break down extremely slowly in the environment and biological systems. Some PFAS compounds have been linked to health concerns including immune system disruption and certain cancers.
As a result, regulatory and legal pressures are increasing globally. Recent litigation settlements demonstrate the scale of financial risk associated with PFAS contamination. 3M agreed to settle drinking water contamination claims for up to $12.5 billion, while DuPont, Chemours, and Corteva reached a $1.185 billion settlement.1,2
At the same time, regulation continues to evolve. Even where federal enforcement may shift, state-level regulations are advancing independently, with at least 20 U.S. states establishing standards for one or more PFAS compounds in drinking water. International regulations—from the EU’s REACH framework to emerging requirements in Japan and Taiwan—add additional layers of compliance complexity.
For semiconductor manufacturers, the implications could be significant. Wastewater streams from chip fabrication can contain PFAS concentrations exceeding regulatory thresholds, and global investments to treat semiconductor and electronics wastewater could reach $16.5 to $50 billion annually by 2035 using current waste management and water treatment technologies.3
“You can’t manage PFAS effectively until you understand what’s actually in your system. Measurement and characterization are the foundation for any meaningful strategy.”
PFAS and Emerging Chemicals
We’re combining years of research, top consulting expertise, accredited laboratory facilities and innovative technologies to identify, discriminate, remediate and replace PFAS and other emerging contaminants, today.
PFAS are a family of highly durable chemicals used in semiconductor fabrication because they resist aggressive chemicals, high temperatures, and demanding manufacturing conditions while helping maintain process consistency.
PFAS are known as "forever chemicals" because they break down extremely slowly in the environment and biological systems, leading to concerns about long-term environmental persistence.
Increasing regulatory scrutiny, environmental concerns, and legal settlements related to PFAS contamination are creating new risks for manufacturers that rely on these compounds.
Semiconductor fabrication often uses short- and ultrashort-chain PFAS compounds that can be harder to detect, more difficult to destroy, and less understood than the PFAS compounds commonly addressed in other industries.
State, federal, and international regulations continue to evolve, creating a more complex compliance landscape for semiconductor manufacturers operating across global markets.
Yes. Semiconductor wastewater streams can contain PFAS concentrations that exceed regulatory thresholds, making monitoring and treatment an increasingly important part of risk management.
Many organizations begin by understanding their PFAS footprint, including which compounds are present, where they originate, how they move through waste streams, and where mitigation efforts will have the greatest impact.
Organizations that invest early in understanding their PFAS profile can improve regulatory readiness, make more informed treatment investments, strengthen customer trust, and build long-term operational resilience.
Posted
July 07, 2026
Author
Battelle Insider
Estimated Read Time
5 Mins
Solution
PFAS Testing and Analysis
Get the actionable, compliant data you need to confidently identify and quantify PFAS.
Receive updates from Battelle for an all-access pass to the incredible work of Battelle researchers.
;
We use cookies to personalize content and ads, to provide social media features and to analyze our traffic. We also share information about your use of our site with our social media, advertising and analytics partners. By continuing to browse our
site without changing your settings, you are agreeing to accept all cookies on the site.