Licensing Opportunity: Cross-Facility Orchestration for Electrochemistry Experiments and Computations
ID: 2024-09-11_FType: Special Notice
Overview

Buyer

ENERGY, DEPARTMENT OFENERGY, DEPARTMENT OFORNL UT-BATTELLE LLC-DOE CONTRACTOROak Ridge, TN, 37831, USA

Original Source

https://sam.gov/opp/c8a19dd7ad754c8eb1aef6a57bc1e63a/view
Timeline
    Description

    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.

    Point(s) of Contact
    Leslie Smith
    (865) 341-0373
    smithlm@ornl.gov
    Files
    No associated files provided.
    Similar Opportunities
    Licensing Opportunity: Tandem Pyrolysis – Evolved Gas – Gas Chromatography – Mass Spectrometry
    Active
    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.
    Licensing Opportunity: Deterministic Atom Steering for Repeated Identical Defect Generation in the Scanning Transmission Electron Microscope
    Active
    Energy, Department Of
    The Department of Energy, through ORNL UT-Battelle LLC, is offering a licensing opportunity for a groundbreaking technology titled "Deterministic Atom Steering for Repeated Identical Defect Generation in the Scanning Transmission Electron Microscope." This innovative method allows for the precise control and placement of atomic defects in materials, significantly enhancing applications in quantum photonics, magnetic storage, and catalysis, while overcoming limitations of traditional scanning tunneling microscopes. The technology is applicable to both 2D and 3D materials, enabling scalable atomic-scale manufacturing without damaging the material's atomic content. Interested parties can learn more about this opportunity by contacting Leslie Smith at smithlm@ornl.gov or by calling 865-341-0373.
    Licensing Opportunity: Self-Repairing Oxygen Evolution Reaction Catalysts for Electrolysis
    Active
    Energy, Department Of
    The Department of Energy is offering a licensing opportunity for a self-repairing oxygen evolution reaction catalyst technology designed for electrolysis applications. This innovative technology utilizes stainless steel or manufactured alloys to create catalysts that can regenerate themselves, addressing common issues of degradation and enhancing long-term durability in electrolyzer systems. The self-repairing catalysts are particularly significant for industries involved in hydrogen production and carbon dioxide reduction, as they promise to reduce costs, improve energy efficiency, and minimize greenhouse gas emissions. Interested parties can learn more about this opportunity by contacting Eugene R. Cochran at cochraner@ornl.gov or by calling 865-576-2830.
    Licensing Opportunity: Real-Time, Rapid and Noninvasive Atomic Lock-On in the Scanning Transmission Electron Microscope
    Active
    Energy, Department Of
    The Department of Energy, through ORNL UT-Battelle LLC, is offering a licensing opportunity for a groundbreaking technology that enables real-time, rapid, and non-invasive atomic lock-on in scanning transmission electron microscopes (STEM). This innovative procedure allows for ultra-precise targeting of individual atoms with a precision below 20 picometers, significantly enhancing the capabilities of STEM by automating beam experiments and minimizing human error. The technology is particularly relevant for applications in semiconductor manufacturing and materials research, providing benefits such as non-invasiveness, speed, and high precision. Interested parties can learn more about this opportunity by contacting partnerships@ornl.gov or calling 865-574-1051.
    Licensing Opportunity: Microballast Electrode Materials
    Active
    Energy, Department Of
    The Department of Energy, through ORNL UT-Battelle LLC, is offering a licensing opportunity for a novel technology related to microballast electrode materials aimed at enhancing battery performance. This invention addresses the limitations of current battery materials, particularly silicon, by improving ion and electron transport through optimized pathways, thereby facilitating faster charging and more efficient battery operation. The technology has significant applications across various industries, including rechargeable batteries, electric vehicles, and electrochemical systems. Interested parties can obtain more information by contacting Leslie Smith at smithlm@ornl.gov or by calling 865-341-0373.
    Licensing Opportunity: Catalysts for Oxygen and Hydrogen Evolution for the Electrolytic Hydrogen Production
    Active
    Energy, Department Of
    The Department of Energy, through ORNL UT-Battelle LLC, is offering a licensing opportunity for a novel catalyst technology aimed at enhancing electrolytic hydrogen production. This technology focuses on the development of a unique catalyst composition that significantly improves the electrochemical properties for oxygen evolution reactions, utilizing renewable energy sources such as solar, wind, or tidal energy. The invention is particularly relevant for industries involved in electrolysis, catalyst manufacturing, and membrane electrode assembly, providing a cleaner and more cost-effective method for hydrogen production. Interested parties can learn more about this technology by contacting Eugene R. Cochran at cochraner@ornl.gov or by phone at 865-576-2830.
    Licensing Opportunity: Cryogenic Belt Driven Sample Changer
    Active
    Energy, Department Of
    The Department of Energy is offering a licensing opportunity for a Cryogenic Belt Driven Sample Changer, developed by ORNL UT-Battelle LLC, aimed at enhancing the efficiency of sample changeouts in cryogenic systems. This innovative technology automates the labor-intensive process of manually loading samples into cryogenic vessels, significantly reducing turnaround time and maximizing sample throughput while minimizing thermal loss. The device is particularly beneficial for industries utilizing closed cycle refrigeration systems, X-ray light sources, and liquid nitrogen, and is characterized by its lightweight design, small footprint, and low operational costs. Interested parties can obtain further information by contacting Leslie Smith at smithlm@ornl.gov or by phone at 865-341-0373.
    Tech Licensing Opportunity: Realtime Electrochemical Waveform Control with Integrated Performance Monitoring
    Active
    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: Speculative Evaluation of What-if Scenarios Using Continuously Evolving Tree of Simulations on Finite Memory Machines
    Active
    Energy, Department Of
    The Department of Energy, through ORNL UT-Battelle LLC, is offering a licensing opportunity for a novel simulation cloning framework designed for speculative evaluation of what-if scenarios using continuously evolving simulations on finite memory machines. This technology aims to enhance the efficiency of simulation computing by enabling the exploration of an exponentially large space of clone simulations, which is particularly beneficial for industries such as power grid management, personalized cancer treatments, and battlefield strategy evaluations. The framework provides significant advantages, including drastically reduced run times for complex simulations and usability for various high-performance computing applications without requiring users to understand the underlying cloning specifics. Interested parties can learn more about this opportunity by contacting Leslie Smith at smithlm@ornl.gov or by phone at 865-341-0373.
    Licensing Opportunity: Membrane Contactor for Energy-Efficient CO2 Capture from Point Sources with Physical Solvents
    Active
    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.