Active Solicitation · DEPARTMENT OF ENERGY

    TECHNOLOGY LICENSING OPPORTUNITY: PFAS-Free Sulfonated Poly(norbornene) Ionomeric Binders

    DEPARTMENT OF ENERGY
    Sol. S-194655Special NoticeSet-aside: No Set aside usedColumbus, OH
    Open · 177d remaining
    DAYS TO CLOSE
    177
    closes Jan 7, 2027
    POSTED
    Jun 29, 2026
    Publication date
    NAICS CODE
    325211
    Primary industry classification
    PSC CODE
    AC34
    Product & service classification

    AI Summary

    The Department of Energy is offering a technology licensing opportunity for PFAS-Free Sulfonated Poly(norbornene) Ionomeric Binders, which are designed for use in hydrogen fuel cells and water electrolyzers. This innovative material provides a cleaner alternative to traditional PFSA materials, enhancing performance while adhering to environmental regulations. Interested parties can explore licensing options through Los Alamos National Laboratory.

    Contract details

    Solicitation No.
    S-194655
    Notice Type
    Special Notice
    Set-Aside
    No Set aside used
    Posted Date
    June 29, 2026
    Response Deadline
    January 7, 2027
    NAICS Code
    325211AI guide
    PSC / Class Code
    AC34
    Contract Code
    8900
    Primary Contact
    Kathleen McDonald
    State
    OH
    ZIP Code
    43201
    AI Product/Service
    both

    Description

    A Cleaner, Tunable Alternative for Hydrogen Fuel Cells and Water Electrolyzers Hydrogen energy systems depend on a small but critical polymer layer inside each electrode, called an ionomeric binder, that shuttles protons, manages water and lets reactant gases reach the catalyst. The industry has long relied on perfluorosulfonic acid (PFSA) materials for this role, which contain PFAS (per? and polyfluoroalkyl substances) — “forever chemicals” — now under increasing regulatory pressure. Researchers at Los Alamos National Laboratory have developed a family of highly sulfonated poly(norbornene) ionomers that are entirely PFAS-free, deliver strong proton conductivity, do not poison precious-metal catalysts the way conventional aromatic alternatives do, and can be chemically tuned to keep electrodes dry under load. Together, these qualities position the material as a drop-in path forward for high-performance proton exchange membrane (PEM) fuel cells and water electrolyzers in a tightening environmental landscape. How it Works PFAS-Free Sulfonated Poly(norbornene) Ionomeric Binders are a class of aliphatic sulfonated poly(norbornene) polymers designed specifically as electrode ionomers in proton-conducting devices. The polymer’s backbone is built from fused bicyclic norbornane units that lack the aromatic pi-electron systems found in conventional hydrocarbon ionomers. The absence of those electrons means the polymer does not strongly adsorb onto platinum catalyst surfaces, so catalytic activity is preserved. Sulfonic acid groups covalently attached onto this backbone supply the proton-conducting pathways, while the bulky bicyclic rings create extra free volume inside the polymer, allowing oxygen and hydrogen to diffuse more easily through the binder layer and reach the catalyst. By adjusting the ratio of sulfonated to non-sulfonated segments, the developers can dial in ionic activity and hydrophobicity to prevent electrode flooding, a persistent issue for PFAS-free ionomers when operated at high current density. Technology Description In a PEM fuel cell or water electrolyzer, the membrane electrode assembly (MEA) is the heart of the device, and the electrode ionomer inside it must simultaneously conduct protons, transport water, allow reactant gases to reach catalyst particles and bind mechanically to both the membrane and the catalyst layer. PFSA materials such as Nafion meet these requirements but carry the environmental burden associated with perfluorinated chemistries. Hydrocarbon-based sulfonated polymers offer a cleaner, lower-cost route, yet their phenyl-rich backbones tend to adsorb onto platinum and reduce catalytic activity, their gas permeability is typically low and the high sulfonic acid content needed for conductivity drives down hydrophobicity, leading to flooding under realistic operating conditions. PFAS-Free Sulfonated Poly(norbornene) Ionomeric Binders target each of these failure modes simultaneously by replacing the phenyl-heavy architecture with a sulfonated poly(norbornene) platform. Advantages Contains no PFAS, helping device makers stay ahead of tightening regulations on perfluorinated chemicals Maintains catalyst activity by avoiding the platinum-adsorbing phenyl groups common in other hydrocarbon ionomers Allows higher gas permeability for improved reactant transport at the electrode Offers tunable hydrophobicity to keep electrodes from flooding during demanding operation Built on a polymer platform with demonstrated thermal stability and mechanical durability Synthesized from lower-cost, structurally tunable starting materials compared with perfluorinated chemistries Market Applications Hydrogen Energy (PEM fuel cells, water electrolyzers, reversible fuel cells) Transportation (fuel cell vehicles, heavy-duty trucking, maritime auxiliary power) Stationary Power and Backup (data centers, telecom, distributed generation) Industrial Gas and Chemicals (hydrogen production for refining, ammonia, steel) Aerospace and Defense (unmanned systems, portable power packs) TRL 4 U.S. Patent pending LA-UR-26-25232 LANL Tech Partnerships: Unlock the Innovative Potential Los Alamos National Laboratory offers a wide range of cutting-edge technologies and capabilities that may provide your company with a competitive edge in the market and unlock the innovative potential that can enhance, refine, and revolutionize your products. LANL’s licensing program focuses on moving inventions developed by our researchers to commercial innovations. Patented and patent pending inventions and copyrighted software are available to existing and start-up companies through exclusive and non-exclusive licensing agreements. For specific discussions, please contact licensing@lanl.gov. Note: This is not a call for external services for the development of this technology. https://www.lanl.gov/engage/collaboration/feynman-center/partner-with-us/licensing-technology m.lanl.gov/tech-search

    Key dates

    1. June 29, 2026Posted Date
    2. January 7, 2027Proposals / Responses Due

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    Frequently asked questions

    TECHNOLOGY LICENSING OPPORTUNITY: PFAS-Free Sulfonated Poly(norbornene) Ionomeric Binders is a federal acquisition solicitation issued by DEPARTMENT OF ENERGY. Review the full description, attachments, and submission requirements on SamSearch before the response deadline.

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