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Technology Licensing Opportunity: Controlled SPAN Electrode Synthesis for and High-Performance Energy Storage

Key dates

Posted
Jun 17, 2026
Response deadline
Aug 1, 2026, 6:00 AM UTC
Archive date
Archive type
auto15

Classification

Notice type
Special Notice
Base type
Special Notice
Set-aside
Set-aside code
PSC
6140

NAICS

Issuing office

Department
ENERGY, DEPARTMENT OF
Sub-tier
ENERGY, DEPARTMENT OF
Office
BATTELLE ENERGY ALLIANCE–DOE CNTR
Office code
089.8900.899050
Organization type
OFFICE
Office address
Idaho Falls, ID, 83415, USA

Place of performance

Street
Street 2
City
Idaho Falls
State
Idaho
Zip
83401
Country
UNITED STATES

Contacts

Description

Controlled SPAN Electrode Synthesis for and High-Performance Energy Storage Scalable production and enhanced stability through advanced reactor design and transition metal sulfide integration Technology Summary Researchers at Idaho National Laboratory (INL) have developed an integrated approach to producing sulfurized–polyacrylonitrile (SPAN) electrode materials at scale with improved electrochemical performance. This dual innovation combines: Controlled, scalable SPAN synthesis enabled by a custom high-pressure chemical reactor with real-time monitoring and additive reagent control. SPAN–transition metal sulfide composites designed to enhance conductivity, sulfur utilization, mitigate polysulfide formation, prolong cycle life, and increase nominal discharge voltage performance in lithium-sulfur and sodium-sulfur batteries. The combined platform addresses longstanding barriers in SPAN production and performance, opening viable pathways for next-generation rechargeable batteries in grid storage, electric mobility, and defense applications. Problem Addressed Manufacturing barriers: Consistent, high quality SPAN cathode materials are difficult to produce in large batch sizes. Existing methods lack precision, scalability, and safety. Commercial gap: Battery developers and manufacturers lack access to a reliable process to enable large scale SPAN production needed to advance lithium-sulfur and sodium-sulfur chemistries. Solution INL’s approach provides both a production pathway and a material enhancement strategy: Reactor-based controlled synthesis Operates under high pressures (up to 3000 PSI) and high temperatures (up to 450°C) with the ability to eliminated headspace for safety and yield. Captures noxious gases and allows gas reagent introduction. Integrates electronic controls, real-time spectroscopy for product feedback, and reproducibility. SPAN–metal sulfide composites Incorporation of transition metal sulfides into the SPAN matrix. Optimized distribution and morphology of sulfides to stabilize cycling and improve conductivity. Potential to increase operating voltage beyond the nominal discharge of 1.85 V for traditional SPAN. Together, these innovations offer a scalable, tunable process to deliver advanced cathode materials for next generation energy storage. Key Advantages Scalability: Controlled batch production demonstrated up to 250 g, supporting pilot-scale manufacturing. Repeatable Material Quality: Batch to batch variability minimized to produce consistent, high-quality material. Safety and efficiency: High-pressure containment, gas capture, and headspace elimination reduce operational risks. Process versatility: Gas reagent introduction and real-time feedback allow tailoring of SPAN properties to specific applications. Market Applications Grid energy storage: Long-duration, cost-competitive solutions for renewable integration. Electric vehicles: Higher energy density cathodes for next-generation EV batteries. Aerospace and defense: Lightweight, high-capacity storage systems for mission-critical applications.[PB3] Specialty electronics: Resilient cathode materials for portable and ruggedized devices. Licensing 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.

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Metadata

Notice ID
94fd428027354908be757bb267d8cf46
Full path
ENERGY, DEPARTMENT OF.ENERGY, DEPARTMENT OF.BATTELLE ENERGY ALLIANCE–DOE CNTR
Office code
089.8900.899050
Ingested
Jun 18, 2026
Updated
Jul 11, 2026