TECHNOLOGY/BUSINESS OPPORTUNITY Method of Fabricating Silicon Carbide Nanoneedles
ID: IL-13538Type: Special Notice
Overview

Buyer

ENERGY, DEPARTMENT OFENERGY, DEPARTMENT OFLLNS – DOE CONTRACTORLivermore, CA, 94551, USA

NAICS

Analytical Laboratory Instrument Manufacturing (334516)

Original Source

https://sam.gov/opp/87bf595fa38148aba10304b38ca81911/view
Timeline
    Description

    The Department of Energy, through the Lawrence Livermore National Laboratory (LLNL), is offering a collaboration opportunity to further develop and commercialize its innovative Method of Fabricating Silicon Carbide Nanoneedles. This opportunity seeks industry partners capable of advancing this technology, which utilizes plasma and chemical etching processes to create micro- and nanoneedles with unprecedented precision, suitable for applications in electronics, drug delivery, and microscopy. Interested companies are encouraged to submit a statement of interest detailing their expertise and facilities relevant to this technology, with responses directed to LLNL's Innovation and Partnerships Office in Livermore, California. For further inquiries, potential partners can contact Alex Hess at hess12@llnl.gov or Charlotte Eng at eng23@llnl.gov.

    Point(s) of Contact
    Alex Hess
    (925) 423-1283
    hess12@llnl.gov
    Charlotte Eng
    (925) 422-1905
    eng23@llnl.gov
    Files
    No associated files provided.
    Lifecycle
    Title
    Type
    TECHNOLOGY/BUSINESS OPPORTUNITY Method of Fabricating Silicon Carbide Nanoneedles
    Currently viewing
    Special Notice
    Similar Opportunities
    Efficient Additive Manufacturing for Advanced U-X Nuclear Fuel Alloys
    Energy, Department Of
    The Department of Energy, through the Battelle Energy Alliance at the Idaho National Laboratory, is seeking industry partners to license innovative technology for efficient additive manufacturing of advanced U-X nuclear fuel alloys. The objective is to revolutionize the production of U-X compounds, such as U3Si2 and U-Mo alloys, by utilizing a patented Laser Engineered Net Shaping (LENS) process that streamlines manufacturing, reduces costs, and enhances safety compared to traditional methods. This technology is crucial for applications in commercial nuclear reactors, research reactors, and defense and space sectors, facilitating the production of next-generation accident-tolerant fuels. Interested companies should contact the Technology Deployment department at td@inl.gov for collaboration opportunities, as the focus is on licensing rather than procurement or hiring services.
    Titanium-Tantalum Alloy Manufacturing for Biomedical and Engineering Applications
    Energy, Department Of
    The Department of Energy, specifically the Battelle Energy Alliance at the Idaho National Laboratory, is seeking industry partners for the licensing of an innovative electrochemical process for manufacturing titanium-tantalum alloys aimed at biomedical and engineering applications. This process addresses the challenges of traditional manufacturing methods, which are energy-intensive and generate significant waste, by enabling direct synthesis of alloys from metal oxides, thus promoting cost efficiency and sustainability. The technology has potential applications in biomedical devices, high-performance structural materials, and corrosion-resistant coatings, making it a valuable opportunity for companies interested in advancing manufacturing technologies. Interested parties can reach out to the Technology Deployment department at td@inl.gov for further collaboration opportunities.
    INL Innovation Spotlight Precision Enhancement for Thermocouples: A Leap in Measurement Accuracy
    Energy, Department Of
    The Department of Energy, through the Battelle Energy Alliance at the Idaho National Laboratory (INL), is seeking partnerships to commercialize an innovative technology aimed at enhancing the precision of thermocouples, which are critical for accurate temperature measurement across various industries. This technology utilizes ohmic heating to stabilize thermocouples, significantly improving their accuracy and lifespan while addressing the common issue of accuracy drift, particularly in high-temperature or radiation environments. With applications spanning manufacturing, aerospace, energy production, and healthcare, this advancement represents a significant leap in measurement reliability. Interested parties can learn more about licensing opportunities by contacting Andrew Rankin at andrew.rankin@inl.gov.
    Catalysts with Tunable Electrocatalytic Behavior for CO₂ Conversion
    Energy, Department Of
    The Department of Energy, through the Battelle Energy Alliance at the Idaho National Laboratory, is seeking industry partners to license innovative catalysts with tunable electrocatalytic behavior for CO₂ conversion. The objective is to address significant challenges in current CO₂ electrochemical conversion systems, including low product selectivity, rigid system designs, and economic constraints, by introducing a supported-metal catalyst that allows for precise control over catalytic behavior and product output. This technology is particularly relevant for carbon-intensive industries and chemical manufacturing, enhancing the economic viability of carbon capture, utilization, and storage initiatives. Interested parties can reach out to the Technology Deployment department at td@inl.gov for collaboration opportunities, as the focus is on licensing intellectual property rather than procurement or hiring services.
    INL Innovation Spotlight Advanced Radiation Monitoring: Fieldable Long-Length Scintillating Fibers
    Energy, Department Of
    The Department of Energy, through the Battelle Energy Alliance at the Idaho National Laboratory (INL), is seeking innovative solutions for advanced radiation monitoring utilizing fieldable long-length scintillating fibers. The objective is to develop a technology that effectively detects and monitors radiation in challenging environments, such as nuclear repositories and medical irradiation facilities, by employing durable scintillating fibers exceeding 10 meters in length, combined with standard optical fibers over 100 meters. This technology addresses significant challenges in radiation monitoring, offering enhanced signal integrity and flexible deployment options essential for the safety and security of sensitive sites. Interested parties can contact Andrew Rankin at andrew.rankin@inl.gov for further information on licensing opportunities and collaboration, as this initiative is not a call for external services or funding.
    Commercial semi-automatic probe stations
    Commerce, Department Of
    The Department of Commerce, specifically the National Institute of Standards and Technology (NIST), is seeking responses to a Sources Sought Notice for the procurement of a commercial semi-automatic probe station. This equipment is essential for conducting reliability testing on silicon carbide field effect transistors (FETs), which are increasingly used in high-power semiconductor applications across various industries, including electric vehicles and energy storage. The probe station must meet specific technical requirements, including the capability to probe 300 mm wafers, accommodate small pad sizes, and include features such as a heated wafer chuck and a digital microscope. Interested vendors should submit their responses, including company details and relevant experience, to Cielo Ibarra at cielo.ibarra@nist.gov by December 12, 2025, for consideration in NIST's market research efforts.
    High-Temperature Compact Heat Exchangers for Harsh Environments
    Energy, Department Of
    The Department of Energy, through the Battelle Energy Alliance at the Idaho National Laboratory, is seeking industry partners to license innovative high-temperature compact heat exchangers (CHXs) designed for harsh environments. The objective is to develop CHXs utilizing refractory metal designs with embedded sensors that enhance performance and reliability, addressing critical limitations of existing nickel-based alloy solutions, such as temperature constraints and corrosion issues. These advanced CHXs are crucial for applications in power generation, chemical processing, and metallurgy, offering significant improvements in durability, energy efficiency, and cost savings. Interested parties can reach out to the Technology Deployment department at td@inl.gov for collaboration opportunities.
    INL Innovation Spotlight Efficient Protonic Ceramic Power: Dual-Mode Hydrogen and Electricity Generation
    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.
    Opportunity to collaborate using a Cooperative Research and Development Agreement (CRADA)
    Energy, Department Of
    The Department of Energy, through Sandia National Laboratories, is offering a collaboration opportunity via a Cooperative Research and Development Agreement (CRADA) for non-federal entities, including businesses, universities, and government agencies. This initiative aims to leverage Sandia's advanced technologies and expertise to enhance product development, academic research, and national security initiatives, fostering joint efforts that drive innovation and economic growth. Participants will have access to unique capabilities while jointly protecting any commercially valuable information produced during the partnership. Interested parties are encouraged to express their interest by contacting the CRADA team at CRADA@sandia.gov for further details on the collaboration process.
    TECHNOLOGY LICENSING OPPORTUNITY: Remotely Operated Ultrasonic Separation (UltraSep)
    Energy, Department Of
    The Department of Energy is offering a technology licensing opportunity for UltraSep, a novel ultrasonic separation technology developed by Los Alamos National Laboratory. This technology aims to address inefficiencies in traditional filtration methods used in industrial manufacturing by providing a membrane-free solution that significantly reduces maintenance disruptions and operational footprint. UltraSep is designed for applications in various sectors, including food and beverage production, pharmaceutical processes, and critical nuclear operations, achieving over 99.9% metal removal and up to 95% bulk water extraction. Interested parties can reach out to Marc Witkowski or Lindsay Augustyn at licensing@lanl.gov for further discussions regarding partnership opportunities, as the technology is currently at Technology Readiness Level 5 and available for licensing agreements.