Technology Licensing Opportunity: Flame-Retardant Electrolytes for Safer Lithium-Ion Batteries
Energy, Department of · ENERGY, DEPARTMENT OF
This notice is not accepting responses (deadline was Sep 29, 2025, 8:00 PM EDT).
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- Response deadline
- Sep 29, 2025, 8:00 PM EDT
- Posted
- Sep 1, 2025
- Solicitation
- BA-846
- Set-aside
- None listed
- Place of performance
- Idaho Falls, ID, USA
- Contracting office
- BATTELLE ENERGY ALLIANCE�DOE CNTR · Idaho Falls · ID
- Source
- SAM.gov · updated Jun 17, 2026
Description
Flame-Retardant Electrolytes for Safer Lithium-Ion Batteries A non-flammable, high-stability electrolyte system that makes lithium-ion batteries safer and more reliable in extreme environments. Technology Summary: A novel class of stabilized phosphoranimines has been developed as air- and water-stable room-temperature ionic liquids (RTILs) with flame-retardant properties and thermal stability beyond 150 �C. These compounds address long-standing limitations of traditional phosphoranimines, which are typically reactive intermediates, by introducing new structural motifs that enable safe handling and practical use. Critically, the materials can solubilize lithium salts and maintain stability in electrochemical environments, making them strong candidates as next-generation electrolytes for lithium-ion batteries. Supporting research on phosphazene-based electrolytes for lithium batteries provides additional context for this development: https://www.sciencedirect.com/science/article/pii/S001346861631091X Problem Addressed Current lithium-ion electrolytes are based on organic carbonates, which are flammable, volatile, and thermally unstable, creating safety and performance limitations in demanding applications. Meanwhile, existing phosphoranimine chemistry has been constrained by unstable intermediates that cannot be readily applied in commercial systems. Industry requires electrolytes that combine flame retardancy, high thermal stability, and tunable performance without sacrificing compatibility with existing battery chemistries. Solution The invention introduces a new synthetic route to N-organophosphoranimines using the Staudinger reaction with a stable imidazolium azide precursor. This enables: Novel structural features: First demonstration of imidazolium substituents bound to nitrogen (rather than phosphorus), creating unexplored electrochemical behavior. RTIL formation with low viscosity: Compound 1 exhibits ~6.5 cSt at 20 �C, while Compound 2 offers higher viscosity, providing flexibility in electrolyte design. Air- and water-stability: Unprecedented for phosphoranimines, enabling practical manufacturing and storage. Versatile solubility: Distinct solubility profiles across organic solvents (e.g., Compound 1 insoluble in toluene; Compound 2 soluble), aiding purification and application tuning. Key Advantages Flame Retardancy: Inherently non-flammable, addressing critical safety concerns. Thermal & Chemical Robustness: Stable at high temperatures and resistant to degradation in air and water. Customizable Chemistry: Broad substituent flexibility allows tailoring of viscosity, solubility, and electrochemical properties. Electrolyte Compatibility: Capable of dissolving lithium salts and operating within relevant electrochemical environments. Novel IP Positioning: Nitrogen-bound imidazolium groups not reported in prior literature, providing strong differentiation. Market Applications Energy Storage: Safer electrolytes for lithium-ion and advanced batteries in consumer, grid, and defense markets. Extreme Environments: Aerospace, military, and industrial applications requiring non-flammable, thermally stable electrolytes. Chemical Processing: Stable solvents and extractants with tunable properties. Industrial Lubricants: Customizable low-volatility liquids with inherent flame-retardant behavior. Licensing Opportunity: INL�s Technology Deployment department focuses solely on licensing intellectual property and collaborating with industry partners who can commercialize our innovations. We do not engage in purchasing, procurement, or hiring external services for technology development. Our objective is to connect with companies interested in licensing and bringing our technologies to market.
What similar awards have paid
Real federal awards already on the books in a similar lane — so you can size the opportunity, not guess. This is public history, not a bid price, cost estimate, or prediction that you will win.
Typical award size
$515,000
Middle of the pack for similar past awards
Most similar awards fall between $515,000 and $515,000
Who has won work like this
Public awardees in this lane — useful for competitor scan or teaming ideas, not a ranked list of “best” firms.
- 1AMERICAN CENTRIFUGE OPERATING, LLC1 award$500,000
- 2GENERAL MATTER, INC.1 award$500,000
- 3GLOBAL LASER ENRICHMENT LLC1 award$500,000
- 4LOUISIANA ENERGY SERVICES, LLC1 award$500,000
- 5ORANO FEDERAL SERVICES LLC1 award$500,000
- 6LIS TECHNOLOGIES INC1 award$500,000
Recent examples
A few of the newest similar awards in our index.
- AMERICAN CENTRIFUGE OPERATING, LLCApr 11, 2025Department of Energy$515,000Source
- GENERAL MATTER, INC.Apr 11, 2025Department of Energy$515,000Source
- GLOBAL LASER ENRICHMENT LLCApr 11, 2025Department of Energy$515,000Source
- LOUISIANA ENERGY SERVICES, LLCApr 11, 2025Department of Energy$515,000Source
- ORANO FEDERAL SERVICES LLCApr 11, 2025Department of Energy$515,000Source
- LIS TECHNOLOGIES INCApr 11, 2025Department of Energy$515,000Source
Drawn from official USAspending contract records in our index. Always confirm requirements on the SAM.gov notice before you bid.
Intelligence only — not legal advice or a guarantee of award. Always verify requirements on the official SAM.gov notice. Past award amounts are public history, not a suggested bid or prediction. Notice ID 0ddf1935796f45cd8c16ae5507b8c62f.