TECHNOLOGY/BUSINESS OPPORTUNITY High Throughput Materials Screening
ID: IL-13738Type: Special Notice
Overview

Buyer

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

NAICS

All Other Industrial Machinery Manufacturing (333248)

PSC

GUNS, 75MM THROUGH 125MM (1015)

Original Source

https://sam.gov/opp/baf03416c6494e8683f5959810b65801/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 Automated High-Throughput Materials Optimization Active-Mixing Direct-Ink-Write (DIW) Platform. This initiative aims to enhance polymer materials formulation and optimization by integrating active-mixing capabilities with in-situ characterization and machine learning systems, facilitating high-throughput screening for targeted applications. The platform is designed to handle complex hybrid formulations and optimize materials such as polymer electrolytes and 3D printing inks, with LLNL actively seeking industry partners to bring this technology to market. Interested companies should submit a statement of interest, including relevant corporate expertise and contact information, to the Innovation and Partnerships Office at LLNL by email or written correspondence.

    Point(s) of Contact
    Austin Smith
    (925) 423-8469
    smith587@llnl.gov
    Charlotte Eng
    (925) 422-1905
    eng23@llnl.gov
    Files
    No associated files provided.
    Lifecycle
    Title
    Type
    TECHNOLOGY/BUSINESS OPPORTUNITY High Throughput Materials Screening
    Currently viewing
    Special Notice
    Similar Opportunities
    TECHNOLOGY/BUSINESS OPPORTUNITY All Liquid Two-Photon Polymerization Resin Formulations Using Cationic Polymerization
    Buyer not available
    The Department of Energy, through the Lawrence Livermore National Laboratory (LLNL), is offering a collaboration opportunity to further develop and commercialize its All Liquid Two-Photon Polymerization Resin Formulations Using Cationic Polymerization. This initiative aims to advance the capabilities of cationic photoresists in two-photon polymerization (TPP) by providing a liquid resin formulation that allows for the printing of larger structures with fine resolution, overcoming limitations associated with traditional solid cationic resins. The technology has potential applications in various fields, including battery and fuel cell electrodes, photonic crystals, mechanical metamaterials, and microfluidic devices. Interested companies should submit a statement of interest, including their corporate expertise and contact information, to LLNL's Innovation and Partnerships Office by email or written correspondence, with further details available on their website.
    Efficient Additive Manufacturing for Advanced U-X Nuclear Fuel Alloys
    Buyer not available
    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.
    Manufacturing Demonstration Facility: Technology Collaborations for US Manufacturers in Advanced Manufacturing and Materials Technologies
    Buyer not available
    The Department of Energy, through the Oak Ridge National Laboratory (ORNL), is seeking industry partners for collaborative projects aimed at developing energy-efficient manufacturing technologies within its Manufacturing Demonstration Facility (MDF). The initiative focuses on reducing manufacturing energy intensity and enhancing U.S. competitiveness by inviting proposals from industries engaged in material processing, particularly in advanced manufacturing technologies such as additive manufacturing and carbon fiber composites. Participants must provide at least a 50% cost share, and projects will be evaluated based on technical feasibility, potential for commercialization, and energy savings. Proposals can be submitted via email to MDFcollaboration@ornl.gov, and the submission period remains open, contingent on funding availability from the DOE Advanced Manufacturing Office.
    LCM 3D Printer
    Buyer not available
    The Department of Defense, specifically the Naval Air Warfare Center (NAWCWD) China Lake, is seeking sources for a Lithography-Based Ceramic Manufacturing (LCM) Multi-Material 3D Printer to enhance its capabilities in ceramic-based composite materials research and development. This procurement aims to support the design and characterization of advanced composite materials, particularly for applications such as hypersonic radomes, by enabling high geometric complexity and layer-by-layer control in the manufacturing process. The printer system must include a standalone unit with dual vats for multi-material printing, an integrated LED light source, and a separate cleaning station, along with robust safety measures and comprehensive contractor support for installation and training. Interested firms should submit a capability statement to the Contracting Office by the specified deadline, referencing the solicitation number, and can contact Kyle Hedman or Luke S. Kelley for further information.
    Titanium-Tantalum Alloy Manufacturing for Biomedical and Engineering Applications
    Buyer not available
    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.
    Transforming Biomass Preprocessing for Advanced Gasification
    Buyer not available
    The Department of Energy, specifically the Battelle Energy Alliance at the Idaho National Laboratory, is seeking industry partners to license innovative technologies aimed at transforming biomass preprocessing for advanced gasification. The objective is to develop efficient and scalable methods for preparing biomass feedstock, addressing challenges such as high energy demands and inconsistent particle morphology that hinder gasification processes. This initiative is crucial for enhancing the performance of gasification systems, supporting renewable energy projects, and facilitating advancements in biomass utilization. Interested companies 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.
    Notice of Intent to Issue a Funding Opportunity from U.S. Department of Energy’s (DOE) High Performance Computing for Energy Innovation (HPC4EI) Initiative
    Buyer not available
    The U.S. Department of Energy (DOE) is set to issue a new solicitation under its High Performance Computing for Energy Innovation (HPC4EI) initiative, specifically targeting the High-Performance Computing for Manufacturing (HPC4Mfg) program. This initiative aims to provide U.S. manufacturers with access to DOE National Laboratory expertise and advanced supercomputing resources to tackle complex challenges in energy and materials, thereby enhancing efficiency, reducing costs, and strengthening supply chain resilience. Eligible participants include entities that manufacture or operate in the U.S. for commercial applications, as well as organizations that support these entities, with selected projects potentially receiving up to $400,000 in funding, contingent upon a minimum 20% cost share from industry partners. For further inquiries, interested parties can contact Aaron Fisher at fisher47@llnl.gov or by phone at 925-422-3950.
    Catalysts with Tunable Electrocatalytic Behavior for CO₂ Conversion
    Buyer not available
    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 Efficient Protonic Ceramic Power: Dual-Mode Hydrogen and Electricity Generation
    Buyer not available
    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.
    Precision Steam Generation for High-Temperature Electrolysis
    Buyer not available
    The Department of Energy, specifically the Battelle Energy Alliance at the Idaho National Laboratory, is seeking industry partners to license an innovative technology for Precision Steam Generation aimed at enhancing high-temperature electrolysis systems. The objective is to develop a reliable method for generating hydrogen-steam mixtures that addresses the challenges of fluctuating flow rates and pressure variations, while utilizing low-grade waste heat efficiently. This technology is crucial for hydrogen production and energy efficiency in various applications, including hydrogen electrolysis systems, industrial heating, and renewable energy integration. 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.