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fluoropolymers

The semiconductor industry must do far more to educate the electronics supply chain on the subtle differences among various fluoropolymers, 30 SEMI member companies learned in an October 13 webinar organized by SEMI to help maintain a unified voice on the critical importance of per- and polyfluoroalkyl substances (PFAS) in semiconductor manufacturing. At the same time, producers and customers of the substances used in chipmaking should work more closely together to steer clear of adopting policies that could limit the availability of safe fluoropolymers and the semiconductor industry’s ability to use them in the future.The insights were offered by representatives from the Performance Fluoropolymer Partnership – a group within the Washington, D.C.-based American Chemistry Council – on per- and poly-fluorinated substances including fluoropolymers. The Council is an industry trade association representing American chemical companies. Following are other key takeaways from the webinar. Fluorinated polymers and non-polymers are commonly found in components used in semiconductor manufacturing such as fittings, valves, tubes, O-rings, wafer carriers, filtration media, high purity air filters, greases and lubricants. The substances are ideal for use in corrosive chemicals, high temperatures and other harsh environments and are found in a variety of electro-technical components such as potentiometers, wiring, printed circuit boards and Lithium-ion batteries. Fluoropolymers are a diverse family of plastics also widespread in modern life, with applications ranging from food packaging and non-stick coatings on kitchen pans to rechargeable batteries for electric vehicles. The term PFAS (per- and poly-fluoroalkyl substances) covers more than 4,700 chemicals with diverse physical, chemical, environmental and biological properties and impacts. There are also significant differences among their chemical compositions. A careful appraisal of their risks and impacts should take into account any potentially hazardous properties, toxicity levels, their prevalence in the industry, and whether substitutes are readily available. Growing pressure from regulators worldwide threatens future access to fluorinated chemicals, increasing the importance of raising awareness on how to distinguish groups of chemicals and encouraging a measured approach towards eliminating only chemicals carrying the greatest risk. Fluoropolymer producers and opponents of the chemicals must look past their divergent interests to work together to voice common concerns to regulators. Various SEMI working groups respond to public consultations when opportunities to present the semiconductor industry’s position arise. Individual group members communicate both among each other regarding new regulatory developments and also with external constituents through SEMI about the importance of chemicals to chip manufacturing. As with other sectors, the semiconductor industry continuously seeks to “green” its manufacturing processes. SEMI believes the commitment of the supply chain to these efforts is crucial to protecting the industry’s interests and driving innovation.Olivier Corvez is senior manager of Environment, Health, Safety and Sustainability at SEMI.
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On behalf of its global membership, SEMI is actively addressing a variety of environment, health and safety (EHS) dossiers impacting the semiconductor manufacturing supply chain. Together with its dedicated working groups (WGs), SEMI educates regulators globally on semiconductor manufacturing technology and advocates a balanced policy framework supporting innovation, growth and sustainability.Perfluorooctanoic acid and related compounds and salts (collectively known as PFOA) have been on the radar of the SEMI PFOA WG and EHS Advocacy Program for several years. PFOA is reported to cause severe and irreversible adverse effects to the environment and human health. PFOA is very stable and will last for years in the environment, and so it is considered a Persistent Organic Pollutant (POP). As such, PFOA is in scope of the Stockholm Convention and meetings to consider revisions to the Convention take place regularly. During these consultative meetings, Parties to the Convention are invited to provide observations and propose amendments. SEMI participated in the ninth meeting of the Conference of Parties (COP) in Geneva in late April and early May to provide the position of the semiconductor manufacturing industry.Among the many substances used to manufacture equipment components, fluoropolymers and fluoroelastomers (together known as fluoromaterials) have been produced sometimes with PFOA as a processing aid. To reduce hazardous effects to the environment and human health and to meet regulatory obligations, many (but not all) fluoromaterial manufacturers worldwide have been eliminating PFOA from their processes. Over the past several years, the WG has been studying equipment components – as well as related supply chains – that might contain fluoromaterials made with PFOA. The WG has learned that if PFOA is present in fluoromaterials, it is only as an unintentional contaminant or impurity. The WG has also confirmed that PFOA serves no intended purpose or performance function in the fluoromaterial-containing components that might be present in semiconductor manufacturing equipment. Although more testing is needed, the WG also believes PFOA that might be present in fluoromaterials does not move freely out of the material into the surrounding environment. In this light, the WG reviewed a draft of exemption recommendations from the Persistent Organic Pollutants Review Committee (POPRC) to the full Stockholm Convention. The exemptions in the draft recommendations addressed new and legacy equipment, fabrication plant-related infrastructure and related refurbishment parts for the manufacture of semiconductors and related electronic devices, and it imposed a commitment to remove any ‘PFOA residue’ from equipment components in five years (10 years for legacy equipment and refurbishment parts). Additionally, there was also an exemption in the draft for PFOA related to photo-lithography and etch processes, which the WG fully supported to maintain, as the presence of PFOA in process chemicals is fairly well understood, but viable substitutes have not yet been found for some applications.The outcome of the WG review was a concern because the equipment-focused exemptions introduced the concept of a ‘PFOA residue,’ and the Stockholm Convention already contains an exemption for ‘Unintentional Trace Contaminants’ (UTCs). The WG concluded that the existing UTC exemption was already sufficient. Additionally, although the WG does have spot information that PFAO can be present in fluoromaterial components, there is no comprehensive data about PFOA presence throughout the deep and complex equipment component supply chain, particularly regarding older parts in storage.Additionally, the WG has seen that very low levels of PFOA can be unintentionally created by some fluoromaterial post-processing steps such as processes intended to control PTFE polymer chain length in fluoro-lubricants that unintentionally create small quantities PFOA (note that PFOA is roughly a very short PTFE chain with a ‘carboxyl’ ending). Also, the WG has learned that PFOA can, in some cases, be accidentally created from fluoropolymers, adding to doubts as to whether ‘PFOA free’ can be determined or achieved. Therefore, the commitment contained in the draft exemption to have all ‘PFOA residues’ removed in five or 10 years was not based on a well-defined action timeline.Therefore, the WG in its discussions with governments around the world, prior to and during the Stockholm Convention COP meetings, requested the removal of specific exemptions related to equipment used in semiconductor manufacturing. The WG also requested that the specific exemption related to photolithography or etch processes be maintained. SEMI appreciates that its recommendations were accepted by the COP. This will help avoid country-specific regulations based on the Convention that are not fit-for-purpose. SEMI and its WG will continue to study PFOA and its elimination from the semiconductor manufacturing supply chain, and educate regulators globally on semiconductor manufacturing technology, underpinning sustainability, innovation and growth in a balanced manner.
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