Displaying 16 - 18 of 32
| ID# | Organization type | Agency interests | Capabilities offered | Equipment & facilities | Organization area of interest(s) | Other offerings | Partner capabilities sought | Partner type | Partner area of interest(s) | Other partner skills sought |
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| Academic | The laboratory specializes in magnetic nanoparticle synthesis and characterization. Developing ferrofluids for thermal management purposes is one of our objectives. |
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An industry/or university interested in magnetic nanotechnology for thermal management purposes | Both academic and industry partners |
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| Academic | Our group provides expertise and experience in the fields of smart materials, system dynamics, and Ultrasonic Additive Manufacturing (UAM). Smart materials have controllable properties, allowing them to be used for a range applications including actuation, sensing, and energy harvesting. In addition, we conduct research on Ultrasonic Additive Manufacturing (UAM) and develop new uses and applications for the technology. UAM is a solid-state process for additively building metal parts and structures from foil feedstock without melting the material. This enables the creation of internal cavities and features; welding of dissimilar metals for multi-material parts and joining; and embedment of temperature-sensitive materials such as fibers, sensors, and electronics. Some specific areas of experience pertaining to this OFRN solicitation include functional and hybrid structures for thermal management, active and passive vibration dampening, and tunable CTE materials and structures. In addition, UAM enables cladding and the design and fabrication of multi-material metal parts to achieve targeted thermal, mechanical, and electrical properties. |
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At our academic institution, we have access to a broad range of expertise and state-of-the-art equipment and user facilities, including electron microscopy and supercomputers. | We are seeking industry and academic partners with interest and experience in the areas of interest indicated. We welcome discussions with potential partners to identify synergistic capabilities and interests. | Both academic and industry partners |
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| Academic | Our expertise in RF Engineering encompasses a broad range of capabilities, including advanced PCB design, wireless sensor network, autonomous automation and control, edge computing, and FPGA security implementation. In PCB design, we specialize in crafting high-performance, high-speed custom PCBs tailored to meet the specific requirements of RF applications, ensuring minimal signal loss, optimized trace routing, and robust impedance matching for seamless signal transmission at RF frequencies. Our FPGA security implementation focuses on designing and deploying secure, hardware-based solutions to safeguard sensitive data and prevent unauthorized access. This involves integrating encryption, authentication, and secure boot mechanisms directly into the FPGA, providing a hardware layer of protection for critical systems. By leveraging these capabilities, we deliver cutting-edge solutions for secure, high-frequency applications in telecommunications, IoT, and other industries requiring both performance and security. |
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- Bluetooth/Wi-Fi Wireless Sensor Network - FPGA customized Print Circuit boards - RF spectrum analyzer/network analyzer - Additive manufacturing equipment - Keysight EXR-Series Oscilloscopes | We'd like to partner with academic institution and industries with applications in RF engineering, custom PCB design, autonomous control, AI at the Edge, FPGA-based security, and secure communications systems. | Both academic and industry partners |
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Check the ID# for the organizations above with which you would be interested in meeting. As you make selections, the Partner IDs are automatically entered below. Enter your contact information and we will review your request.
OFRN will facilitate all requested introductions; it is up to you whether you choose to pursue them.