TECHNOLOGY LICENSING OPPORTUNITY Electrochemical Revolution: Transforming Methane into Ethylene
ID: BA-1455Type: Special Notice
Overview

Buyer

ENERGY, DEPARTMENT OFENERGY, DEPARTMENT OFBATTELLE ENERGY ALLIANCE–DOE CNTRIdaho Falls, ID, 83415, USA

NAICS

Materials Recovery Facilities (562920)

PSC

EQUIPMENT AND MATERIALS TESTING- CHEMICALS AND CHEMICAL PRODUCTS (H268)

Original Source

https://sam.gov/opp/e458d004a48044dba608ab73826000db/view
Timeline
    Description

    The Department of Energy is offering a technology licensing opportunity for a modular electrocatalytic membrane reactor system designed to transform methane into ethylene, managed by Battelle Energy Alliance at the Idaho National Laboratory. This innovative technology addresses the challenges of traditional ethylene production methods, such as low conversion rates and safety risks, making it suitable for the petrochemical and polymer industries that utilize natural gas as feedstock. The system enhances methane conversion efficiency and offers a sustainable approach to ethylene production, with a focus on small-scale natural gas reserves and renewable hydrocarbon sources. Interested parties can contact Andrew Rankin at andrew.rankin@inl.gov for more information on licensing opportunities and to explore potential partnerships.

    Point(s) of Contact
    Andrew Rankin
    andrew.rankin@inl.gov
    Files
    No associated files provided.
    Similar Opportunities
    TECHNOLOGY LICENSING OPPORTUNITY Green Chemistry Breakthrough: Transforming CO2 into Olefins with Innovative Electrocatalysis
    Active
    Energy, Department Of
    The Department of Energy is offering a technology licensing opportunity focused on a breakthrough in green chemistry that transforms carbon dioxide into olefins through innovative electrocatalysis. This technology aims to address the pressing need for sustainable chemical production by utilizing a proton-conducting solid oxide electrochemical cell combined with novel catalysts, operating at intermediate temperatures of 300-500°C, which enhances efficiency and reduces dependency on petrochemical feedstocks. The potential applications of this technology span the petrochemical and polymer industries, sustainable aviation fuel production, and CO2 utilization in industrial plants, making it a significant advancement in decarbonization efforts. Interested parties can contact Andrew Rankin at andrew.rankin@inl.gov for further details and to explore licensing opportunities, as the technology is currently at Technology Readiness Level 3 with a provisional patent application filed.
    Tech Licensing Opportunity: Realtime Electrochemical Waveform Control with Integrated Performance Monitoring
    Active
    Energy, Department Of
    The Department of Energy, through the Battelle Energy Alliance, is offering a technology licensing opportunity for a novel system known as Realtime Electrochemical Waveform Control with Integrated Performance Monitoring. This technology aims to enhance the performance and efficiency of electrochemical devices, such as batteries and fuel cells, by enabling continuous performance analytics and optimization without interrupting operations. The integration of real-time waveform analysis addresses significant challenges in the electrolysis and fuel cell industries, particularly the need for sophisticated performance monitoring in large-scale systems. Interested parties can reach out to Andrew Rankin at andrew.rankin@inl.gov for further details, and additional information about licensing opportunities can be found at https://inl.gov/technology-deployment/.
    INL Innovation Spotlight Efficient Protonic Ceramic Power: Dual-Mode Hydrogen and Electricity Generation
    Active
    Energy, Department Of
    The Department of Energy, through the Battelle Energy Alliance at the Idaho National Laboratory (INL), is seeking partnerships to advance its innovative technology in Efficient Protonic Ceramic Power, which enables dual-mode hydrogen production and electricity generation. This opportunity focuses on the development of a reversible solid oxide cell technology that operates efficiently at lower temperatures, addressing the critical need for sustainable energy conversion and storage solutions in the context of a global shift towards renewable energy. The technology, utilizing a high-performance PNC oxide material, offers enhanced efficiency, durability, and versatility for applications in renewable energy storage, hydrogen production, and power generation. Interested parties can engage with INL for licensing opportunities and further discussions by contacting Andrew Rankin at andrew.rankin@inl.gov.
    Tech Licensing Opportunity: Advanced Feedthrough Assembly Technology for Sealed Environments
    Active
    Energy, Department Of
    The Department of Energy, through the Battelle Energy Alliance, is offering a technology licensing opportunity for an Advanced Feedthrough Assembly Technology designed for sealed environments. This innovative technology aims to enhance the integrity of sealed chambers critical for industrial processes and scientific research, addressing challenges such as leakage due to pressure differentials and seal degradation under extreme conditions. The feedthrough assembly is particularly suited for applications in industrial manufacturing, scientific research, and aerospace and defense, ensuring reliable performance in demanding environments. Interested parties can reach out to Andrew Rankin at andrew.rankin@inl.gov for further discussions regarding licensing terms and opportunities for collaboration.
    Tech Licensing Opportunity: Advanced Bonding Method for Heterogeneous Systems
    Active
    Energy, Department Of
    The Department of Energy is offering a technology licensing opportunity for an advanced bonding method designed for heterogeneous systems, developed by researchers at the Idaho National Laboratory (INL). This innovative method allows for the seamless bonding of similar and dissimilar materials without visible bond lines, significantly enhancing material integrity and durability while reducing energy consumption compared to traditional bonding techniques. The technology is particularly relevant for industries such as aerospace, electronics, and nuclear, where material reliability is critical. Interested parties can reach out to Andrew Rankin at andrew.rankin@inl.gov for further discussions on licensing terms and opportunities for collaboration.
    TECHNOLOGY LICENSING OPPORTUNITY Enhanced Stability for Li Metal Batteries with Molybdenum Decorated Collectors
    Active
    Energy, Department Of
    The Department of Energy, through the Battelle Energy Alliance at the Idaho National Laboratory, is offering a technology licensing opportunity for an enhanced stability solution for lithium metal batteries utilizing molybdenum decorated collectors. This innovative technology aims to improve the cycling performance and energy density of anode-free rechargeable lithium batteries, addressing challenges such as lithium dendrite growth and low coulombic efficiency. The development is currently at Technology Readiness Level 2, indicating a need for proof-of-concept work, and interested parties can explore licensing options to access this groundbreaking technology. For further inquiries, potential partners should contact Andrew Rankin at andrew.rankin@inl.gov.
    Tech Licensing Opportunity: Electric Field Assisted Sintering of Bimetallic Materials
    Active
    Energy, Department Of
    The Department of Energy is offering a technology licensing opportunity for a novel method of Electric Field Assisted Sintering (EFAS) of bimetallic materials, aimed at enhancing the joining of dissimilar metals. This innovative technology addresses the limitations and high costs associated with traditional welding methods, providing a practical solution for industries such as aerospace, heat transfer, and manufacturing by enabling the fusion of materials like aluminum and stainless steel without the need for bulky connectors. The technology is currently at Technology Readiness Level 5 and is supported by a US Provisional Patent Application, with the Idaho National Laboratory (INL) seeking partnerships to commercialize this advancement. Interested parties can contact Andrew Rankin at andrew.rankin@inl.gov for further discussions on licensing terms and opportunities.
    TECHNOLOGY LICENSING OPPORTUNITY Embedded Fiber Optic Sensors in High-Temperature Materials
    Active
    Energy, Department Of
    The Department of Energy, through the Idaho National Laboratory (INL) managed by Battelle Energy Alliance, is offering a technology licensing opportunity for the Embedded Fiber Optic Sensors in High-Temperature Materials. This initiative aims to commercialize a novel technology that utilizes Electric Field-Assisted Sintering (EFAS) to embed fiber optic sensors in high-temperature structural materials, facilitating robust real-time structural health monitoring in extreme environments such as nuclear reactors and aerospace applications. The technology, currently at Technology Readiness Level (TRL) 3, has demonstrated successful proof-of-concept experiments and is protected under Provisional Patent Application No. 63/487,327. Interested companies with a proven track record in commercialization are encouraged to contact Andrew Rankin at andrew.rankin@inl.gov for further details on licensing and collaboration opportunities.
    INL Innovation Spotlight H2 CURE: Transforming Carbon Emissions into Clean Hydrogen Energy
    Active
    Energy, Department Of
    The Department of Energy, through the Battelle Energy Alliance at the Idaho National Laboratory, is seeking partners for the H2 CURE initiative, which focuses on transforming carbon emissions into clean hydrogen energy. This innovative technology aims to convert CO2 into hydrogen while achieving net-negative emissions, thereby addressing the urgent need for sustainable industrial processes and contributing to global emission reduction efforts. The H2 CURE process not only produces hydrogen for thermal energy applications but also generates a commercially viable carbonate salt byproduct, enhancing its economic appeal. Interested parties can reach out to Andrew Rankin at andrew.rankin@inl.gov for further engagement and to explore licensing opportunities related to this technology.
    Tech Licensing Opportunity: ViBRANT: Visual Benign Reactor As Analog for Nuclear Testing
    Active
    Energy, Department Of
    The Department of Energy, through the Battelle Energy Alliance, is offering a technology licensing opportunity for ViBRANT (Visual Benign Reactor As Analog for Nuclear Testing), a novel approach to simulating nuclear reactor behaviors using an LED-based analog model. This initiative aims to address the challenges in nuclear reactor design and testing by providing a geometrically accurate representation of reactor cores, facilitating rapid iterations between digital simulations and physical models, and enhancing safety and accessibility in nuclear education and training. ViBRANT is positioned for various applications, including training tools for reactor operation, development platforms for automated control systems, and public engagement exhibits on nuclear technology. Interested parties can reach out to Andrew Rankin at andrew.rankin@inl.gov for further discussions on licensing terms and opportunities.