Licensing Opportunity: Tailored Polymer Binder for Flexible Sulfide Electrolyte Films
| Location: | Tennessee |
|---|---|
| Posted: | Sep 11, 2024 |
| Due: | Oct 26, 2024 |
| Agency: | ENERGY, DEPARTMENT OF |
| Type of Government: | Federal |
| Category: |
|
| Solicitation No: | 2024-09-11-R |
| Publication URL: | To access bid details, please log in. |
- Contract Opportunity Type: Special Notice (Original)
- All Dates/Times are: (UTC-04:00) EASTERN STANDARD TIME, NEW YORK, USA
- Original Published Date: Sep 11, 2024 10:51 am EDT
- Original Response Date: Oct 26, 2024 05:00 pm EDT
- Inactive Policy: Manual
- Original Inactive Date: Oct 27, 2024
- Initiative:
- Original Set Aside:
- Product Service Code:
- NAICS Code:
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Place of Performance:
Oak Ridge , TN 37830USA
Invention Reference Number: 202405587
Next generation batteries for electric vehicles (EVs) and other manufacturing needs require solid-state batteries made with high-performance solid electrolytes. These thin films are critical components but are difficult to manufacture to meet performance standards. This technology uses binders in the manufacturing process to overcome this hurdle, optimizing the binder’s molecular weight and enhancing the mechanical performance of solid electrolyte films and the solid-state battery performances. This significantly improves advanced battery manufacturing for next generation production.
Description
Advanced solid-state batteries made of thin-film sulfide solid-state electrolytes require efficient, flexible, and high-performance solid electrolytes, but this is a significant challenge to manufacture. Overlooked in the manufacturing process is the binder, especially its molecular weight that impacts its integrity and capabilities. This technology optimizes the binder’s chain conformations, enhancing the mechanical and electrochemical performance of the solid electrolyte batteries by using powders to bind the electrolytes. The technology specifically adds a solvent and polymeric binder. By tuning its molecular weight, the binder conforms in the slurry during the wet chemical process of production. The result is a thin film with higher density electrodes that allows increased longevity as well as increased performance of the battery.
Benefits
- Reduced cost
- Improved safety
- Improved performance and reliability
- Increased scalability and efficiency
- Improved flexibility
- Enhanced charging capability
- Higher energy density
- Easier to make
- Reduced thickness
- Reduced weight
- Uses less raw material
- Increased battery life, reduces recycling concerns
Applications and Industries
- Material manufacturers and suppliers for solid-state battery industry
- Solid-state battery manufacturers
- Any industry using solid-state batteries
Contact
To learn more about this technology, email partnerships@ornl.gov or call 865-574-1051.
- Oak Ridge National Laboratory PO Box 2008
- Oak Ridge , TN 37831
- USA
- Andreana Leskovjan
- leskovjanac@ornl.gov
- Phone Number 8653410433
- Sep 11, 2024 10:51 am EDTSpecial Notice (Original)
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