![]() ![]() For more information, visit: SkyWater Technology Forward-Looking Statements SkyWater serves growing markets including aerospace & defense, automotive, biomedical, cloud & computing, consumer, industrial and IoT. This pioneering model enables innovators to co-create the next wave of technology with diverse categories including mixed-signal CMOS, ROICs, rad-hard ICs, power management, MEMS, superconducting ICs, photonics, carbon nanotubes and interposers. SkyWater’s Technology as a Service SM model streamlines the path to production for customers with development services, volume production and heterogeneous integration solutions in its world-class U.S. SkyWater (NASDAQ: SKYT) is a U.S.-owned semiconductor manufacturer and a DMEA-accredited Category 1A Trusted Foundry. government by providing the Trusted semiconductor technology required to domestically manufacture devices for defense and aerospace applications.” continues to lead the world in technology innovation, SkyWater will continue striving to meet the critical needs of the U.S. This collaboration with the DOD is one example of SkyWater’s many public-private partnerships that enable great strides toward further securing and strengthening our domestic semiconductor supply chains,” said SkyWater President and CEO, Thomas Sonderman. “As the only U.S.-investor owned and operated pure-play semiconductor foundry, we are committed to our role in reshoring chip manufacturing. Lincoln Laboratory developed the FDSOI process for making integrated circuits resistant to degradation and malfunction caused by extreme radiation levels. Radiation effects can rapidly degrade microelectronics, and unmitigated can cause compromised performance, malfunctions or complete failure. SkyWater’s RH90 platform is based on MIT Lincoln Laboratory’s 90 nm fully depleted silicon-on-insulator (FDSOI) complementary metal-oxide-semiconductor (CMOS) process, which was engineered to produce radiation-hardened (rad-hard) electronics which can withstand harsh radiation environments. The DOD recently determined that SkyWater has successfully completed the base prototype project. This is another step in SkyWater’s RH90 technology roadmap and is part of the previously announced up to $170M investment in SkyWater by the DOD to broaden onshore production capabilities for strategic rad-hard electronics. This is the latest agreement between SkyWater and the DOD to ensure a reliable and trusted source of U.S.-made chips for use in strategic defense and space applications. The SiNW-on-a-chip biosensing technology paves the way to the translational clinical application of FET in the detection of cancer protein markers.BLOOMINGTON, Minn.-( BUSINESS WIRE)- SkyWater Technology (NASDAQ: SKYT), the trusted technology realization partner, today announced the Department of Defense (DOD) is funding a $27 million Other Transactional (OT) Agreement Option to further develop intellectual property (IP) for its 90 nm Strategic Rad-Hard by Process (RH90) FDSOI technology platform. Importantly, the detection could be completed in less than 30 min and span a wide dynamic detection range (∼10(5)). Using this platform, the cancer prognostic marker ALCAM could be detected in serum with a detection limit of 15.5 pg/mL. Reliable and reproducible electrical performance has been demonstrated via electrical characterization using a custom-designed portable readout device. The FET sensing platform has been fabricated using a complementary metal oxide semiconductor (CMOS)-compatible process. High-quality SiNW arrays have been rationally designed toward their implementation as molecular biosensors. An integrated translational biosensing technology based on arrays of silicon nanowire field-effect transistors (SiNW FETs) is described and has been preclinically validated for the ultrasensitive detection of the cancer biomarker ALCAM in serum.
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