MILPITAS, Calif. – January 17, 2022 – SEMI FlexTech today announced more than $5 million in funding for five new research and development (R&D) projects aimed at flexible hybrid electronics (FHE) innovations for sensors, medical devices, automotive electronics and other consumer and industrial microelectronics products.
“The new projects push the limits of technology in ways that are not funded by private sector alone, illustrating the vital importance of the SEMI FlexTech program in evolving FHE technology development across multiple high-growth industries,” said Gity Samadi, Director of R&D Programs for SEMI FlexTech. “Flexible hybrid electronics help transform traditional rigid products into devices that are conforming, highly reliable, and often more sustainable.”
Project Overviews
ACI Materials will optimize the performance of its Alchemy high-film-thickness conductive sintering and semi-sintering pastes, inks, and coating for additive manufacture of higher performance FHE and direct writing in 3D printed circuit structures. Advanced inks are a key enabler to the continued growth of 3D printed components, a rapidly growing manufacturing capability. ACI is teaming with
nScrypt for this 18-month project costing $510,000.
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The
University of Washington will demonstrate a systematic approach to in situ monitoring and machine learning control of electrohydrodynamic inkjet printing, enabling adaptable and scalable micron-scale manufacturing of 2D optics, interconnects and flexible devices. The UW will team with
Iowa State University,
SIJTechnology,
Cyber Manufacturing and
Metrology Solutions and
Kent Displays on this $848,847 project.
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Cornell University will apply artificial intelligence (AI) to increasing the reliability of printed electronics using optical and ultrasonic metrologies and acoustic emissions. Cornell will team with
BotFactory and
Geegah LLC on this $575,000 project.
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GE Research will develop and demonstrate a bio-inspired soft robot for assisting a human operator in performing inspection maintenance and repair (IMR) in highly confined spaces inside industrial and defense facilities. GE Research will collaborate with
Binghamton University,
Georgia Tech and
UES on this 18-month project costing $2 million.
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GE Research will develop a high-power (≥1.2kV), low-profile, low-inductance silicon carbide power module using conformable direct write interconnects and packaging. Costing $1.8 million, the 18-month project promises to make high-power, high-voltage and high-current electronics more customizable and reduce the cost of producing them in low volume.
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The FlexTech R&D program is supported by the U.S. Army Research Laboratory (ARL), based in Adelphi, Maryland. Learn more about the SEMI-FlexTech funding program.
About SEMI
SEMI® connects more than 2,400 member companies and 1.3 million professionals worldwide to advance the technology and business of electronics design and manufacturing. SEMI members are responsible for the innovations in materials, design, equipment, software, devices, and services that enable smarter, faster, more powerful, and more affordable electronic products. Electronic System Design Alliance (ESD Alliance), FlexTech, the Fab Owners Alliance (FOA), the MEMS & Sensors Industry Group (MSIG) and SOI Consortium are SEMI Strategic Technology Communities. Visit
www.semi.org to learn more, contact one of our worldwide offices, and connect with SEMI on
LinkedIn and
Twitter .