TECHNOLOGY LICENSING OPPORTUNITY Ligand-Assisted Capillary Electrophoretic Separation of Rare Earth Elements (REEs)

TECHNOLOGY LICENSING OPPORTUNITY Green 3D Electrodeposition (G3DED): Revolutionizing Advanced Manufacturing of Metallic Fuel Elements

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Energy, Department Of

Special Notice ENERGY, DEPARTMENT OF TECHNOLOGY LICENSING OPPORTUNITY Green 3D Electrodeposition (G3DED): Revolutionizing Advanced Manufacturing of Metallic Fuel Elements The Department of Energy is seeking a technology licensing opportunity for Green 3D Electrodeposition (G3DED), a groundbreaking approach to fabricate high-performance metal fuels. This technology combines green electrodeposition with 3D manufacturing, ensuring efficiency, reduced contamination, and cost-effectiveness. Traditionally, metal fuel fabrication has relied on high-temperature processes, which often lead to contamination and waste. While 3D printing brought innovation, it introduced challenges in nuclear applications. The G3DED technology addresses these issues by harnessing the benefits of green electrodeposition in ionic liquid electrolytes and integrating it with advanced 3D manufacturing techniques. The G3DED technology allows for the fabrication of metallic fuels at room or slightly elevated temperatures, optimizing fuel composition and microstructures. It offers significant reductions in contamination and waste, versatility in using different starting materials, and potential cost savings due to process simplification. The technology is scalable and designed to meet diverse application needs. Potential applications of G3DED include fabrication of nuclear fuels and components, corrosion prevention, processing of new fuels, spent fuels, and nuclear wastes. It also has potential applications in the production of lightweight materials like aluminum and titanium alloys, manufacturing of battery materials, electrodes, and devices, and electrochemical dissolution of noble metals for etching and machining. The G3DED technology is currently at Technology Readiness Level (TRL) 2, with a technology concept and/or application formulated. It is protected by a US Patent Application (No. 17/309,574) managed by Battelle Energy Alliance, LLC. The Idaho National Laboratory (INL) is eager to form commercial collaborations and license the intellectual property to organizations proficient in bringing innovations to the market, particularly small businesses and start-ups. For further inquiries and collaboration opportunities, please contact Andrew Rankin at td@inl.gov. More information about collaborating with INL can be found at https://inl.gov/inl-initiatives/technology-deployment.

Licensing Opportunity: Tandem Pyrolysis – Evolved Gas – Gas Chromatography – Mass Spectrometry

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Energy, Department Of

The Department of Energy is offering a licensing opportunity for a novel technology that enables tandem pyrolysis evolved gas analysis and gas chromatography-mass spectrometry (EGA-MS and GC-MS) from a single sample. This innovative approach addresses the limitations of traditional methods, which require separate experiments, by allowing both analyses to occur simultaneously, thereby reducing sample usage and experiment time significantly. The technology is particularly relevant for industries involved in polymer characterization, forensics, and environmental monitoring, as it enhances analytical efficiency and accuracy. Interested parties can learn more about this opportunity by contacting Andreana Leskovjan at leskovjanac@ornl.gov or by calling 865-341-0433.

Tech Licensing Opportunity: Realtime Electrochemical Waveform Control with Integrated Performance Monitoring

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Energy, Department Of

Special Notice ENERGY, DEPARTMENT OF is seeking a Tech Licensing Opportunity for Realtime Electrochemical Waveform Control with Integrated Performance Monitoring. This technology integrates active waveform analysis for live performance monitoring and optimization in electrochemical devices. It offers a breakthrough in the operation of electrochemical devices such as batteries, fuel cells, and electrolysis systems by enabling continuous performance analytics and optimization without interrupting normal operations. The key advantages include live performance monitoring and optimization, application of complex waveforms without halting device operation, improved precision in performance analytics for large-scale systems, high-resolution data collection for health assessment of devices, potentially reduced capital costs, and increased system efficiency. This technology solves the challenges of real-time system monitoring, precision analytics in large-scale electrochemical systems, lack of sophisticated power electronics in large electrolysis systems, and collecting high-quality information from large systems. It has market applications in large-scale electrolysis plants, fuel cell operators, industrial scale green energy production, and research and development facilities. The technology is currently at TRL 3 and has a US Provisional Patent Application. Interested parties can contact td@inl.gov for more information.

Licensing Opportunity: Cross-Facility Orchestration for Electrochemistry Experiments and Computations

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Energy, Department Of

The Department of Energy is offering a licensing opportunity for a technology designed to enhance electrochemistry experiments through cross-facility orchestration. This innovative solution involves the design and development of hardware and software that supports autonomous chemistry workflows, enabling real-time measurement transfer and analysis on high-performance computing systems, thereby addressing the limitations of manual testing. The technology is applicable across various fields, including isotope production, battery testing, and analytical chemistry, and aims to automate workflows, improve productivity, and minimize errors. For further information, interested parties can contact Leslie Smith at smithlm@ornl.gov or call 865-341-0373.

TECHNOLOGY LICENSING OPPORTUNITY Green Chemistry Breakthrough: Transforming CO2 into Olefins with Innovative Electrocatalysis

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Energy, Department Of

Special Notice ENERGY, DEPARTMENT OF TECHNOLOGY LICENSING OPPORTUNITY: Green Chemistry Breakthrough: Transforming CO2 into Olefins with Innovative Electrocatalysis The Department of Energy is seeking a technology licensing opportunity for a green chemistry breakthrough that efficiently converts carbon dioxide into olefins. This technology offers a sustainable solution for the chemical and polymer industries by reducing dependency on petrochemical feedstocks and addressing the need for decarbonization and sustainable methods in the chemical industry. The system utilizes a proton-conducting solid oxide electrochemical cell with perovskite-structured mixed metal oxide catalysts, operating at intermediate temperatures (300-500°C). It allows for flexibility in hydrogen sources and energy input, providing higher CO2 conversion and energy efficiency compared to traditional methods. The catalysts used in the system offer high activity and selectivity, making the process more efficient. This technology has the potential for modular implementation, making it appealing for on-site CO2 valorization at industrial plants. It can be used in the petrochemical and polymer industries, sustainable aviation fuel production, and industrial plants with CO2 emissions. Companies specializing in CO2 utilization technologies can also benefit from this technology. The technology is currently at Technology Readiness Level (TRL) 3, with analytical and experimental proof-of-concept demonstrated. It is protected by a provisional patent application. Interested parties can partner with Idaho National Laboratory (INL) for access to this pioneering technology and mutual growth. For more information and to discuss how your business can benefit from this technology licensing opportunity, please contact Andrew Rankin at td@inl.gov.

TECHNOLOGY LICENSING OPPORTUNITY Electrochemical Revolution: Transforming Methane into Ethylene

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Energy, Department Of

Special Notice ENERGY, DEPARTMENT OF TECHNOLOGY LICENSING OPPORTUNITY Electrochemical Revolution: Transforming Methane into Ethylene The Department of Energy is seeking a technology licensing opportunity for a modular electrocatalytic membrane reactor system that efficiently upgrades methane into ethylene. This technology addresses challenges faced by traditional methods of ethylene production from methane, such as low conversion rates and low selectivity, as well as safety risks. It is targeted towards the petrochemical and polymer industries that use natural gas or natural gas liquids as feedstock. The system offers higher efficiency, safety, modularity, and versatility, and has potential environmental benefits by reducing CO2 emissions. Applications include the petrochemical and polymer industries, small-scale natural gas reserve exploitation, and renewable hydrocarbon source conversion. The technology is currently at Technology Readiness Level 3 and has a provisional patent application. Interested parties can partner with Idaho National Laboratory for access to the technology. For more information, contact Andrew Rankin at td@inl.gov.

Licensing Opportunity: Membrane Contactor for Energy-Efficient CO2 Capture from Point Sources with Physical Solvents

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Energy, Department Of

The Department of Energy is offering a licensing opportunity for a novel membrane contactor technology designed for energy-efficient CO2 capture from point sources using physical solvents. This innovative method utilizes deep eutectic solvents (DES) in a membrane contactor system, allowing for effective CO2 separation through a process that includes gas contact, physisorption, and solvent recirculation, all while minimizing energy consumption and operational challenges associated with traditional methods. The technology has significant applications across various industries, including power generation, chemical manufacturing, biogas upgrading, and natural gas processing, making it a vital solution in the fight against greenhouse gas emissions. Interested parties can reach out to Andreana Leskovjan at leskovjanac@ornl.gov or call 865-341-0433 for further information regarding this opportunity.

Tech Licensing Opportunity: Advanced Feedthrough Assembly Technology for Sealed Environments

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Energy, Department Of

Special Notice: ENERGY, DEPARTMENT OF is seeking an Advanced Feedthrough Assembly Technology for Sealed Environments. This technology is used to enhance the integrity of sealed chambers in demanding environments. It addresses the challenge of maintaining the integrity of sealed chambers in industrial processes and scientific research. The advanced feedthrough assembly offers unparalleled reliability and effectiveness in sealing technology. It includes a feedthrough conductor, a first insulator, and a metal gasket system designed to maintain a robust seal. The assembly is optimized for high performance in sealed chambers, with features like copper metal gaskets for enhanced seal durability and resistance to harsh conditions. It has a compact design and is easy to integrate into existing systems. The technology solves problems such as leakage in sealed chambers, seal degradation at high temperatures, space constraints in chamber design, and maintenance of controlled environments. It has market applications in industrial manufacturing, scientific research, and aerospace and defense. The technology is currently at TRL 5 and has a US Patent Application. For more information and licensing opportunities, contact td@inl.gov.

TECHNOLOGY LICENSING OPPORTUNITY Continuous Electric-Field Assisted Sintering (CEFAS) System

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Energy, Department Of

Special Notice: ENERGY, DEPARTMENT OF is offering a technology licensing opportunity for a Continuous Electric-Field Assisted Sintering (CEFAS) System. This system revolutionizes traditional EFAS manufacturing by introducing a continuous processing method. It eliminates limitations on part length, significantly reduces processing time and energy consumption, and enables seamless industrial scale-up. The CEFAS system is ideal for material processing companies requiring sintering solutions, industries where scale-up and time efficiency are critical, and manufacturing processes requiring specialized part geometries. The technology is at a Technology Readiness Level (TRL) 4-5 with some validation work done in the laboratory. Interested companies should contact Andrew Rankin at td@inl.gov for more information on this licensing opportunity.

TECHNOLOGY LICENSING OPPORTUNITY Innovative Carbon Capture Membranes from Low Concentration CO2 Emission Sources

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Energy, Department Of

Special Notice ENERGY, DEPARTMENT OF TECHNOLOGY LICENSING OPPORTUNITY Innovative Carbon Capture Membranes from Low Concentration CO2 Emission Sources The Department of Energy is offering a technology licensing opportunity for innovative carbon capture membranes from low concentration CO2 emission sources. These membranes are used for efficient carbon dioxide enrichment and separation from air and other low concentration sources. The material is defect-free, self-guttering, durable, and manufacturable with very high selectivity for carbon dioxide over nitrogen. By eliminating pinholes and enhancing membrane performance, the cost of captured CO2 could be reduced by more than 50%. The technology is currently at TRL 3 and undergoing proof-of-concept work. Companies interested in this licensing opportunity should contact Andrew Rankin at td@inl.gov.

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