Innovation and Technology

Business Operations

Centrus Aims to Make U.S. a Top Uranium Enricher

a view of a city

The most difficult part of creating nuclear power is enriching the uranium—and that’s precisely where Centrus Energy Corporation has set out to make America the global leader.

A unique position: The Bethesda, Maryland–headquartered Centrus, which is the only U.S.-owned enricher of uranium, can trace its roots as a company back to the Manhattan Project, the secret government initiative during World War II that brought the U.S. into the atomic age.

  • The company is uniquely poised to make good on its aim to bring clean, plentiful, affordable and reliable energy to the world.
  • “Nuclear power is reliable—so much so that we’ve seen a lot of the growth in nuclear generation around the world,” Centrus President and CEO Amir Vexler told the NAM.
  • In 2023, global nuclear power generation grew 8%, after declining the prior year.

Geopolitical-fueled growth: The driver behind the expansion? Russia’s 2022 invasion of Ukraine, according to Vexler.

  • “Since 2022, a lot of nations realized they have to have some level of sovereignty around power generation,” he said. “With nuclear, you’re not dependent on fossil fuels from other countries, which is particularly important if you’re a nation that’s not rich in resources.”
  • In the more than two years since the start of the war in Ukraine, Russia has lost its position as the world’s top oil and gas exporter, as the U.S. and allies have sought to wean themselves off Russian energy imports.

A catch-22: But there’s no nuclear power without uranium—and ironically, Russia holds approximately 44% of the world’s uranium-enrichment capacity, according to the Department of Energy, and supplies nearly a quarter of the enriched uranium used in U.S. reactors.

  • However, that monopoly may soon start to crumble, as in May President Biden signed bipartisan legislation to ban the import of Russian low-enriched uranium, also known as LEU.

Building up domestic supplies: At the same time, the U.S. is moving to ramp up domestic uranium production—and Centrus is key to making it happen.

  • In November 2022, the DOE announced a $150 million cost-shared award with a Centrus subsidiary to demonstrate the capability to produce high-assay low-enriched uranium, or HALEU, an advanced fuel form needed to power the next generation of nuclear reactors.

Sole producer: HALEU is uranium enriched to between 5% and 20% uranium-235, and Centrus’ Piketon, Ohio, enrichment plant is the only American facility licensed to produce it.

  • The Piketon facility began HALEU enrichment in late 2023, becoming the first U.S.-owned enrichment plant to start production in nearly 70 years. With sufficient public and private investment, Centrus could add thousands of centrifuges for the large-scale production of LEU for existing reactors and HALEU for future reactors. The plant could also provide enriched uranium for national security missions.

Filling a crucial vacuum: The removal of Russia from the uranium-enrichment landscape “creates a huge vacuum,” and it’s America’s to fill. In fact, doing so is a national security imperative, Vexler continued.

  • “The enrichment process—creating the technology and building the machines—is so demanding, we as a country cannot cede it to others. Once that knowledge leaves our shores, we will never get it back. We have ceded [nuclear knowledge] to the Russians and Europeans before and it’s hard to catch up. … This is a complex supply chain that is extremely specialized, with an enormous amount of value add.”
  • If the U.S. establishes robust uranium enrichment processes and facilities, he said, the country “could become a net exporter [of nuclear fuel] to Europe, Latin America [and] Asia. If we don’t compete in those markets, the Russians will.”

Safe, sound and lucrative: The cartoonish portrayal of the nuclear industry in popular culture has done it a disservice. It’s a fundamentally safe sector—and it can ensure well-paying jobs for years to come.

  • “There is such great misinformation” about nuclear energy, Vexler said. “One of our biggest enemies is probably animated shows with catastrophic images [of nuclear plants]. … Consider that a U.S. company is enriching uranium here and will create a generation of people that will know about how to do it—technicians, electricians and more who understand these complex machines.”
  • The nuclear sector is assiduously regulated and held to high standards, and it’s always learning, evolving and coming up with new reactor designs. “It’s probably one of the safest industries in the world.”

The last word: Vexler is optimistic about the future—both for Centrus as a company and for the U.S. as a major nuclear-power exporter.

  • “I commend the U.S. government; there are many in it who are strong champions of nuclear power,” Vexler told us. “Getting the amount of funding that’s been allocated is a great accomplishment. With the continued support of the government and a public–private partnership, we will bring enrichment and all the associated benefits back to the U.S.”

 

Business Operations

Beyond the Buzzwords: Digital Transformation in Manufacturing

Technology is constantly changing. But how will this era of digital transformation change the manufacturing industry?

The NAM’s Leading Edge program partnered with Siemens to present “Beyond the Buzzwords: A Digital Thread Journey,” a four-part webinar series dedicated to understanding how cutting-edge ideas affect manufacturers. In the first episode, we put the digital transformation journey in context by introducing the “digital thread.” In the next three, we dove deeper into cloud acceleration, artificial intelligence and radical flexibility.

Cloud acceleration: A business’s digital needs are covered by a combination of software, hardware and physical infrastructure. If you turn to an offsite partner to provide any of those elements, then you are probably already using cloud acceleration to support your business.

  • We spoke with Surf Loch Director of Project and Process Development Bryan Behr, Siemens Senior Vice President of Cloud Application Services Raymond Kok and Surf Loch Systems Engineer Miles Miller to learn more.

What it is: Cloud acceleration refers to a wide range of on-demand computing services hosted outside of your organization.

  • Kok explained that cloud acceleration “is really a layer cake with three layers to it.” At the highest level is “infrastructure as a service,” like data centers. In the middle is “platform as a service,” which might provide you with the building blocks to create your own applications. And at the final layer is “software as a service,” which is what you would typically get from a commercial software vendor.

How it helps: Cloud acceleration is easier, more cost effective and more flexible than managing all of your computing needs internally.

  • “The cool thing about the cloud is how containerized everything is,” said Miller. “Data is readily available in a very organized fashion. … If there’s a problem or something needs to be solved, we can put that data in the right hands.”
  • Behr also pointed out the benefits for digital security. “It’s either rely on one thing to maintain our security on premise or rely on a very sophisticated cloud team as part of a set of resources. … [I]t became pretty obvious that that appears to be a safer place for us than potentially on premise.”

Learn more: To learn more about cloud acceleration, check out the full webinar here.

AI/machine learning: We know that AI and machine learning are affecting every industry. But how should manufacturers use this new technology?

We brought together Siemens Advanta North America CEO Rani Russell Shea and Schaeffler Special Machinery Head of Electrical & Software Engineering Stefan Gahabka to learn about how to approach AI.

How it works: “The basic idea with AI is that you use data to train models,” said Shea. “Those models can run analytics and then essentially make decisions while learning things, like pattern detection. And then when you’re talking specifically about industrial AI, you’re talking about using AI for machine learning solutions, to solve business problems, things like factory optimization.”

Augmenting humanity: According to Shea and Gahabka, AI is intended to elevate the human factor in manufacturing, not replace it.

  • “Everybody really wants to be able to do their job better, faster, more accurately, more safely, more sustainably,” said Shea. “AI … is going to help us do that, and by doing that, it’s literally elevating the role of people so we’re free to then use our creativity, our experience and our knowledge to really address the complex stuff.”

Doing more: AI can be used to measure, model and optimize everything from energy usage to supply chains—even helping manufacturers find the right partners to match their sustainability objectives.

  • “We talk about the hard things like quality and cost, but can also think about the next step,” said Gahabka. “We can search for suppliers that have sustainable locations and goals.”

Learn more: To learn more about AI and machine learning, check out the full webinar here.

Radical flexibility: Many think of efficient manufacturing in terms of highly standardized automatable processes. Today, though, new technology is creating new possibilities for manufacturers.

We convened an expert panel with Vice-President of Digital Enterprise at Siemens Alastair Orchard, Global Engineering Director and Automation & Robotics Lead at Unilever Cesare Gibilaro, and Process Orchestration & Manufacturing Hub, Manager for Business Operations at Unilever Louise Gigg to introduce us to radical flexibility and the future of manufacturing.

What it is: Technological advancements are making it possible for manufacturers to make only what is needed when it is needed, rather than having hard-coded machines that limit what your business can do for the sake of efficiency.

  • For much of the past century, according to Orchard, manufacturers had been focused on “removing degrees of freedom from manufacturing, making it more rigid, so that automation could be applied to extremely repeatable processes … radical flexibility really challenges that assumption to its core. And we asked: what if nothing was hard coded?”
  • “The radical way of looking at it,” said Gigg, “is reconfiguring the asset that you have on automation [and giving it] a new task or a new capability that it didn’t have yesterday.”

How to use it: Radical flexibility is all about using your assets more effectively and more efficiently to deliver more options for your customers.

  • Gibilaro highlighted the ability to change directions with incredible speed. “With radical flexibility, we have the opportunity to reconfigure the line. … It is not a matter of hours, but a matter of minutes.”

Why it matters: Because radical flexibility allows processes to shift quickly, there’s less wasted time and inventory.

  • “It’s this ability to make things where you need them in small quantities,” said Orchard. “You’re risking much less, and you’re not forced to make these giant bets.”

Learn more: To learn more about radical flexibility, check out the full webinar here.

Business Operations

Beyond the Buzzwords: Manufacturers Tackle Digital Threads

A manufacturing business is filled with internal processes, workflows and standards, and the average factory generates thousands of data points per day. But how does a manufacturer capture that data? How do they preserve institutional knowledge? What if they could automate workflow, create seamless project handoffs and track development around every stage of a project’s life?

The NAM’s Leading Edge program, in partnership with Siemens, asked a panel of experts these questions in “Beyond the Buzzwords: The Digital Thread Journey,” the first in a four-part webinar series focused on understanding the “digital thread” in the workplace. In the first installment of the series, Siemens Vice President of Industry Strategy Dale Tutt and Anduril Industries Chief of Engineering Tom McCarthy introduced us to the idea of the digital thread—what it is, why it matters and how manufacturers can harness its power to succeed.

What it is: The digital thread is a concept rather than a specific technology. According to Tutt, it is about capturing and connecting every piece of a project’s life cycle digitally, and using that connectivity to provide a seamless transition of information from one functional area to another.

  • “We often refer to a digital thread as singular, like it’s a thing,” said McCarthy. “But really, in my mind, it’s a lot of threads. … it ends up being more like a rope than a thread.”

Why it matters: A strong digital thread can automate a manufacturer’s workflow, capture data more effectively, preserve institutional knowledge, trace development processes and even capture the context that informs how decisions are made.

  • Radically new technology means that organizations can accomplish these tasks more successfully than ever before—and that those who ignore that opportunity could be left behind.
  • “The biggest risk is to do nothing and assume this fad will go away,” said McCarthy.

The challenges: One of the biggest challenges in building a strong digital thread in your own workspace is integration and data management.

  • Manufacturing systems need to manage lots of data coming to it in different formats. But according to Tutt, that data needs to be organized in a comprehensible way. “It’s about producing the right data at the right time in the right … format,” said Tutt.
  • According to McCarthy, a digital thread isn’t just a database. It is the key that deciphers that data and makes it accessible and intelligible for the user. “We need a Rosetta Stone,” said McCarthy, “to be able to understand how that data maps onto other tools.”

Implementation and technology: New technology and strategic concepts have enhanced our capacity to build strong digital threads—and with that new ability has come a new and urgent need to make use of the concept to strengthen the manufacturing industry.

  • To get started on your own digital thread journey, Tutt and McCarthy agreed that manufacturers should dig into the existing workflows in their organization and introduce one tool at a time, rather than trying to engineer a master solution all at once.
  • “You can work the digital infrastructure you need for that workflow in pieces, so you can build them up over time,” said McCarthy. “You got to keep your eye on the end game, but if you try to build it all at once, good luck.” 

Learn more: To learn more about digital threads, check out the full webinar here. 

Coming up: In the next three webinars in this series, Beyond the Buzzwords explores a few of those tools and concepts that drive the digital thread in the modern day: artificial intelligence, cloud advancements and radical flexibility.

Policy and Legal

NAM to Senate: Administration March-in Proposal Undermines IP, Innovation

The Biden administration’s push to invoke “march-in” rights is unlawful and would have “disastrous consequences” for the United States if enacted, the NAM told the Senate Tuesday.

What’s going on: Ahead of a Senate Judiciary Committee hearing on intellectual property in the biopharmaceutical sector, the NAM warned of the potentially dire consequences of the proposed march-in framework issued by the National Institute of Standards and Technology.

  • The NIST proposal would allow the federal government to “march in” and seize manufacturers’ patent rights if an innovation was developed in any part with federal dollars.
  • In the biopharmaceutical sector and other innovative industries, federal funding plays an important role in supporting early-stage research—but further R&D, product development and commercialization require hundreds of millions to billions of dollars in additional capital from investors and established companies.
  • Robust IP protections ensure that manufacturers can bring innovative products to consumers.

Why it’s a problem: March-in would violate manufacturers’ IP rights and prevent investment into lifesaving and life-changing technologies, according to NAM Vice President of Domestic Policy Charles Crain.

  • “Allowing march-in based on the price of a product or technology, as the NIST guidance proposes … would undermine manufacturers’ IP rights and have sweeping ramifications for innovation in the United States and America’s world-leading innovation economy,” Crain told the committee.
  • Committee member Sen. Chris Coons (D-DE) agreed during the hearing that the proposal is fundamentally flawed. “Any company [that] invents [anything] or any researcher who invents anything is now open to the federal government saying, ‘I want that, and I don’t agree with the price you’re setting for it,’” he said.

What should happen: Congress must stop NIST’s overreach, Crain said.

  • “Policies that threaten IP protections, like NIST’s proposed march-in guidance, will cede one of our greatest advantages to our competitors. Manufacturers [look forward] to work[ing] with the committee to ensure the U.S. maintains the strongest IP protections in the world in order to spur the discovery and commercialization of inventions that improve health and quality of life for all people.”
Business Operations

Novonesis Lets Nature Guide Sustainability Plans

When it comes to good environmental stewardship, Novonesis takes its cue from the natural world itself.

“We are inherently sustainable because we draw from nature,” said Novonesis Senior Vice President of Planetary Health Biosolutions Rene Garza. “As biology matures, we find that nature has evolved to be an efficient utilizer of every single resource out there.”

Back to basics: It’s the perfect model for the newly formed Lyngby, Denmark–headquartered biosolutions firm, the product of a January merger between two Danish legacy companies: enzyme and microbial technology firm Novozymes and bioscience supplier Chr. Hansen.

  • The portfolio of Novonesis—which is a combination of the Greek words for “new” and “beginning”—includes enzymes, microbes, novel vitamins and other naturally derived offerings.
  • The business has customers across more than 30 industries: food and beverages, animal health and nutrition, energy, fine chemicals, dietary supplements, household care, plastics, plant health and more. 

An early adopter: Legacy firm Novozymes set its sights on sustainable business practices more than two decades ago. In 2002, it became the first company in the world to publish a triple bottom-line integrated report.

  • “We recognized early on that resources are finite, and the need to do more with less is part of ensuring a better quality of life,” Garza said of the company’s decision to undertake the annual report, a method of stocktaking on sustainability activities using three “bottom lines”: profit, people and planet. “We realized we’re not just here to generate money, but also to create an impact on society and our environment.”

Big goals: That’s why Novonesis has set lofty aims for itself (and is meeting them).

  • Firmwide targets include carbon net neutrality by 2050, as well as a 75% reduction in emissions from its own operations and a 35% reduction in emissions from its supply chain by 2030.
  • How is it doing all this? Innovation and persistence, according to Garza. “We want to improve our efficiency by as much as we can, and we do this by making improvement to our hardware—pump replacements, reengineering [of] our microorganisms. We also source renewable energy.”
  • In fact, Novonesis is on track to source 100% of its energy from renewables by next year. Between 2018 and 2022, it reduced absolute emissions by 63% while increasing revenue. 

Water, too: Novonesis knows how important water use is in the overall sustainability picture.

  • The company is piloting a reverse-osmosis filtration system at its North America headquarters in Franklinton, North Carolina, that lets it recycle and reuse water. The program, scheduled for full operationality by next year, is going so well there are plans to replicate it at other Novonesis facilities worldwide.
  • And at the company headquarters in Denmark, “we have been able to recycle 58 million liters [of water]—the equivalent of 23 Olympic-size swimming pools,” Garza reported.

What government can do: Novonesis and other manufacturers are making great strides in sustainability, but having the right policies in place at the federal level would make it easier for them to do more with less, Garza continued.

  • “We need regulatory reform,” he told the NAM. “Federal regulations, if done well, really can drive innovation, particularly in biotechnology. … The government should [also] invest in pilot and demo scale fermentation capacity to allow startups to scale up.”
  • The U.S. has the largest concentration of startup companies in the world, he went on, but there is now a “valley of death” between discovery and commercialization of innovations in biology, which federal funding could help remove.
  • Finally, manufacturing in the U.S. needs the reinstatement of pro-growth policies from the 2017 Tax Cuts and Jobs Act, including 100% expensing for research and development costs and accelerated depreciation for capital investments.

Stakeholder education: Getting more people aboard the sustainability train is doable—but it will require continued education campaigns.

  • “We need long-term thinking [and] to encourage stakeholders to prioritize the long-term over short-term gains,” Garza said. “Sustainability is about balancing immediate and future needs.”
Press Releases

NAM Publishes First-of-Its-Kind Report on Vast Potential of Artificial Intelligence for Manufacturers

Washington, D.C. – The National Association of Manufacturers released a first-of-its-kind report, “Working Smarter: How Manufacturers Are Using Artificial Intelligence,” detailing use cases for artificial intelligence in manufacturing and case studies of how manufacturers are already implementing AI technologies to strengthen America’s workforce, advance innovation and improve the quality of life for everyone.

The report provides an overview of insights from leading manufacturers, including Johnson & Johnson, Schneider Electric and Hitachi, on how AI can improve efficiency, product development, safety, predictive maintenance and supply chain logistics. The report also outlines a series of recommendations on how policymakers can help support the safe, responsible development of AI while promoting innovation and growth.

“So much of the media and policymaking conversation is focused on generative AI, but AI is far more than that for modern manufacturers,” said NAM President and CEO Jay Timmons. “It’s infused increasingly throughout the shop floor, research and development and beyond. Manufacturers are leading the way in the use and development of new AI technologies. From developing more effective clinical trials and improving workplace safety to strengthening supply chain resiliency and supporting workforce training for employees, AI is unlocking new opportunities to strengthen our modern manufacturing workforce and improve the lives of all Americans. Congress and the Biden administration can support manufacturers’ adoption of AI by enacting strong data privacy protections, investing in workforce training and providing regulatory certainty.”

“All possible futures for modern manufacturing in the U.S. involve AI,” said Johnson & Johnson Executive Vice President and Chief Technical Operations & Risk Officer and NAM Board Chair Kathy Wengel. “Given the importance of this generational technology, policymakers must develop sensible, carefully thought-out frameworks for various AI applications—and they should lean on manufacturers’ years of experience to engineer those frameworks. We need a policy environment that supports innovation and growth in manufacturing AI, because it will bolster U.S. competitiveness and leadership in this critical emerging field.”

Policy recommendations include the following:

  • Invest in R&D and career technical education institutions that train the modern manufacturing workforce.
  • Enact federal privacy legislation that advances individuals’ privacy and provides legal clarity that supports continued innovation and competitiveness.
  • Employ a risk-based approach that tailors any new AI regulations—only if new regulations are necessary—to specific use cases and minimizes compliance burdens.
  • Ensure that regulatory frameworks are aligned globally to maintain U.S. global leadership. The more disparate the approach to AI around the world, the more time, energy and investment companies will need to spend navigating misalignments.

Learn more here.

-NAM-

The National Association of Manufacturers is the largest manufacturing association in the United States, representing small and large manufacturers in every industrial sector and in all 50 states. Manufacturing employs nearly 13 million men and women, contributes $2.89 trillion to the U.S. economy annually and accounts for 53% of private-sector research and development. The NAM is the powerful voice of the manufacturing community and the leading advocate for a policy agenda that helps manufacturers compete in the global economy and create jobs across the United States. For more information about the NAM or to follow us on Twitter and Facebook, please visit www.nam.org.

Policy and Legal

NAM First-of-Its-Kind AI Report Includes Policy Recommendations

Artificial intelligence is improving efficiency, workplace safety, product development, machine maintenance and supply chain logistics at manufacturing facilities everywhere, according to a new, first-of-its-kind report from the NAM.

What’s going on: Working Smarter: How Manufacturers Are Using Artificial Intelligence,” released today, details use cases for AI in the sector, discussing how manufacturers nationwide are using it to improve lives everywhere.

  • The report features deep dives on AI-powered technologies at manufacturers, including Johnson & Johnson, Schneider Electric and Hitachi.

Trailblazers need good policy, too: “From developing more effective clinical trials and improving workplace safety to strengthening supply chain resiliency and supporting workforce training for employees, AI is unlocking new opportunities to strengthen our modern manufacturing workforce and improve the lives of all Americans,” said NAM President and CEO Jay Timmons. “Congress and the Biden administration can support manufacturers’ adoption of AI by enacting strong data privacy protections, investing in workforce training and providing regulatory certainty.”

  • Legislators should “lean on” manufacturers’ deep experience when drafting AI-related legislation, added Johnson & Johnson Executive Vice President and Chief Technical Operations & Risk Officer and NAM Board Chair Kathy Wengel.
  • “All possible futures for modern manufacturing in the U.S. involve AI,” she said. “Policymakers must develop sensible, carefully thought-out frameworks for various AI applications. … We need a policy environment that supports innovation and growth in manufacturing AI, because it will bolster U.S. competitiveness and leadership in this critical emerging field.”

The recommendations: The report contains immediately implementable policy recommendations for lawmakers:

  • Invest in research and development and career technical education institutions to train the modern manufacturing workforce.
  • Pass federal privacy legislation to advance individuals’ privacy protections and give legal clarity that will support continued innovation by manufacturers.
  • Use a risk-based approach to new AI regulations that tailors any future laws to specific use cases and minimizes the burden of compliance.
  • Ensure that AI regulation is aligned globally.
Input Stories

EPA Chemical Rule Will Add Delays, Costs for Manufacturers

a sign on the side of a building

The EPA recently finalized a rule that establishes a process for conducting risk evaluations for certain chemicals—but it will only hamstring U.S. manufacturing competitiveness if implemented, the NAM said this week.

What’s going on: In a final rule issued late last month under the Toxic Substances Control Act, the EPA “will now consider exposure to chemicals in air and water and, when possible, combined risks from exposure to multiple chemicals” (Chemical & Engineering News).

  • “The [agency] will also consider risks to workers without assuming that they are wearing personal protective equipment [and] … chemical uses required for national security or critical infrastructure.”

Why it’s important: The final regulation will unnecessarily cost manufacturers in both time and money.

  • The “new TSCA risk evaluation rule adds too many additional barriers and requirements on manufacturers and risks creating de facto bans on chemistries essential to both existing technologies and the development of new innovative materials,” the NAM said Monday.
  • “Manufacturing relies heavily on new and existing chemicals, which are the building blocks of technologies that make modern life possible,” NAM Vice President of Domestic Policy Brandon Farris told the agency last December. “To ensure continued access to the newest chemicals which can make essential technologies even more effective and efficient, TSCA should be administered in a manner that protects health and the environment while avoiding unnecessary adverse economic impacts on business enterprises.”

What should be done: The agency should revise the final rule, the NAM said.

Business Operations

IRI Announces 2024’s Top Innovator Finalists

The Innovation Research Interchange has announced the finalists for this year’s IRI Innovation Excellence Awards.

What’s going on: The honors given by the IRI—the NAM’s innovation arm—pay tribute to organizations and individuals whose outstanding vision and tireless pursuit of excellence are having a positive impact on lives today and shaping the industries of tomorrow. Honorees come from companies of all sizes and industries.

The categories: Awards are given in five categories, three to companies and two to individuals. They are as follows:

  • IRI Innovation Leadership Award (individual)
  • IRI Promising Young Innovation Professional Award (individual)
  • IRI Excellence Award for Innovation in Sustainability (company)
  • IRI Excellence Award for Outstanding Innovative Culture (company)
  • IRI Excellence Award for Digital and Technological Innovation (company)

Who participates: Each year, nominees comprise innovators who are leveraging technology to enhance operational performance at their companies or sustainability and fostering a collaborative workplace culture that celebrates innovation.

  • High-performing leaders who drive sustainability initiatives are also recognized, and consultants and university partners working on exciting innovation projects with a company are eligible for nomination, too.

Why they’re important: In addition to building team unity and encouraging executive leadership to invest further in innovation, the awards give companies the chance to revisit the successes, challenges and lessons learned throughout their innovative projects.

  • Selection as a finalist shows customers, prospects and partners that a company or individual is at the forefront of innovation.

Attend the celebration: Winners will be announced May 16 during the Innovation Celebration and Reception at the Innovators Summit in Boston. Celebration admission is included with summit registration.

About the IRI: The IRI offers insights, case studies, research, benchmarks and strategic connections—all built around a set of innovation growth drivers as determined by members annually. Learn more about the IRI here.

Input Stories

Thermo Fisher Scientific Helps Manufacturers with PFAS Testing


As government regulation of per- and polyfluoroalkyl substances ramps up worldwide, Thermo Fisher Scientific is seeing a boom in its PFAS testing business.

“We’ve seen an increase in demand from a number of countries in the Americas and in Europe,” said Toby Astill, director of environmental and food safety in chromatography and mass spectrometry at the life sciences giant. “Those regions are driving more discussions around current and future regulations than other regions.”

  • In recent weeks, the Environmental Protection Agency has issued several final rules concerning PFAS. These include the first-ever national regulation limiting PFAS in drinking water to near-zero levels and, just last week, the designation of two PFAS chemicals as hazardous substances under the Superfund law.

Writing is on the wall: Thermo Fisher foresaw the need for comprehensive PFAS analysis early on. That’s why it’s been offering clients a full suite of testing capabilities for more than a decade.

  • Commonly called “forever chemicals” because they do not break down easily in the environment, PFAS were used widely in everyday products starting in the 1940s, owing to their ability to put out fires and resist grease, corrosion and stains in addition to countless other consumer and industrial applications.
  • Using chromatography—“technology that allows lab users to separate and analyze the different components in samples,” according to Astill—Thermo Fisher can “confirm the presence of a specific substance and determine how much is there.”
  • The tech is not limited to PFAS, however; it can also detect, down to parts per trillion, the presence of pesticides, heavy metals and other substances, Astill said. And it works on samples of almost anything, including food packaging, water and even air.

Aiding compliance: In coming years, manufacturers may need to analyze their PFAS exposure comprehensively to remain compliant with Toxic Substances Control Act and other international regulations, including those from the EPA, Astill said.

Read the full story here.

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