02.02.24
MIT and Applied Materials, Inc. announced an agreement that, together with a grant to MIT from the Northeast Microelectronics Coalition (NEMC) Hub, commits more than $40 million of estimated private and public investment to add advanced nano-fabrication equipment and capabilities to MIT.nano, the Institute’s center for nanoscale science and engineering.
The collaboration will create a unique open-access site in the United States that supports research and development at industry-compatible scale using the same equipment found in high-volume production fabs to accelerate advances in silicon and compound semiconductors, power electronics, optical computing, analog devices and other critical technologies.
The equipment and related funding and in-kind support provided by Applied Materials will significantly enhance MIT.nano’s existing capabilities to fabricate up to 200mm (8-inch) wafers, a size essential to industry prototyping and production of semiconductors used in a broad range of markets including consumer electronics, automotive, industrial automation, clean energy and more.
Positioned to fill the gap between academic experimentation and commercialization, the equipment will help establish a bridge connecting early-stage innovation to industry pathways to the marketplace.
“A brilliant new concept for a chip won’t have impact in the world unless companies can make millions of copies of it. MIT.nano’s collaboration with Applied Materials will create a critical open-access capacity to help innovations travel from lab bench to industry foundries for manufacturing,” said Maria Zuber, MIT’s VP for research and E. A. Griswold Professor of Geophysics. “I am grateful to Applied Materials for its investment in this vision. The impact of the new toolset will ripple across MIT and throughout Massachusetts, the region, and the nation.”
Applied Materials is the world’s largest supplier of equipment for manufacturing semiconductors, displays and other advanced electronics. The company will provide at MIT.nano several state-of-the-art process tools capable of supporting 150 and 200mm wafers and will enhance and upgrade an existing tool owned by MIT.
In addition to assisting MIT.nano in the day-to-day operation and maintenance of the equipment, Applied engineers will develop new process capabilities which will benefit researchers and students from MIT and beyond.
“Chips are becoming increasingly complex, and there is tremendous need for continued advancements in 200mm devices, particularly compound semiconductors like silicon carbide and gallium nitride,” said Aninda Moitra, corporate VP and GM of Applied Materials’ ICAPS Business.
“Applied is excited to team with MIT.nano to create a unique, open-access site in the U.S. where the chip ecosystem can collaborate to accelerate innovation,” added Moitra. “Our engagement with MIT expands Applied’s university innovation network and furthers our efforts to reduce the time and cost of commercializing new technologies while strengthening the pipeline of future semiconductor industry talent.”
The Northeast Microelectronics Coalition (NEMC) Hub, managed by the Massachusetts Technology Collaborative (MassTech), will allocate $7.7 million to enable the installation of the tools. The U.S. Department of Defense (DoD) selected the NEMC Hub as one of eight Microelectronics Commons Hubs and awarded funding from the CHIPS and Science Act to accelerate the transition of critical microelectronics technologies from lab-to-fab, spur new jobs, expand workforce training opportunities and invest in the region’s advanced manufacturing and technology sectors.
The Microelectronics Commons program is managed at the federal level by the Office of the Under Secretary of Defense for Research and Engineering (OUSD(R&E)) and the Naval Surface Warfare Center, Crane Division, and facilitated through the National Security Technology Accelerator (NSTXL), which organizes the execution of the eight regional hubs located across the country.
“The installation and operation of these tools at MIT.nano will have a direct impact on the members of the NEMC Hub, the Massachusetts and Northeast regional economy, and national security. This is what the CHIPS and Science Act is all about,” said Ben Linville-Engler, Deputy Director at the MassTech Collaborative and the interim director of the NEMC Hub.
MIT.nano is a 200,000 square-foot facility located in the heart of the MIT campus with pristine, class-100 cleanrooms capable of accepting these advanced tools. Its open-access model means that MIT.nano’s toolsets and laboratories are available not only to the campus but also to early-stage R&D by researchers from other academic institutions, non-profit organizations, government and companies ranging from Fortune 500 multinationals to local startups.
The collaboration will create a unique open-access site in the United States that supports research and development at industry-compatible scale using the same equipment found in high-volume production fabs to accelerate advances in silicon and compound semiconductors, power electronics, optical computing, analog devices and other critical technologies.
The equipment and related funding and in-kind support provided by Applied Materials will significantly enhance MIT.nano’s existing capabilities to fabricate up to 200mm (8-inch) wafers, a size essential to industry prototyping and production of semiconductors used in a broad range of markets including consumer electronics, automotive, industrial automation, clean energy and more.
Positioned to fill the gap between academic experimentation and commercialization, the equipment will help establish a bridge connecting early-stage innovation to industry pathways to the marketplace.
“A brilliant new concept for a chip won’t have impact in the world unless companies can make millions of copies of it. MIT.nano’s collaboration with Applied Materials will create a critical open-access capacity to help innovations travel from lab bench to industry foundries for manufacturing,” said Maria Zuber, MIT’s VP for research and E. A. Griswold Professor of Geophysics. “I am grateful to Applied Materials for its investment in this vision. The impact of the new toolset will ripple across MIT and throughout Massachusetts, the region, and the nation.”
Applied Materials is the world’s largest supplier of equipment for manufacturing semiconductors, displays and other advanced electronics. The company will provide at MIT.nano several state-of-the-art process tools capable of supporting 150 and 200mm wafers and will enhance and upgrade an existing tool owned by MIT.
In addition to assisting MIT.nano in the day-to-day operation and maintenance of the equipment, Applied engineers will develop new process capabilities which will benefit researchers and students from MIT and beyond.
“Chips are becoming increasingly complex, and there is tremendous need for continued advancements in 200mm devices, particularly compound semiconductors like silicon carbide and gallium nitride,” said Aninda Moitra, corporate VP and GM of Applied Materials’ ICAPS Business.
“Applied is excited to team with MIT.nano to create a unique, open-access site in the U.S. where the chip ecosystem can collaborate to accelerate innovation,” added Moitra. “Our engagement with MIT expands Applied’s university innovation network and furthers our efforts to reduce the time and cost of commercializing new technologies while strengthening the pipeline of future semiconductor industry talent.”
The Northeast Microelectronics Coalition (NEMC) Hub, managed by the Massachusetts Technology Collaborative (MassTech), will allocate $7.7 million to enable the installation of the tools. The U.S. Department of Defense (DoD) selected the NEMC Hub as one of eight Microelectronics Commons Hubs and awarded funding from the CHIPS and Science Act to accelerate the transition of critical microelectronics technologies from lab-to-fab, spur new jobs, expand workforce training opportunities and invest in the region’s advanced manufacturing and technology sectors.
The Microelectronics Commons program is managed at the federal level by the Office of the Under Secretary of Defense for Research and Engineering (OUSD(R&E)) and the Naval Surface Warfare Center, Crane Division, and facilitated through the National Security Technology Accelerator (NSTXL), which organizes the execution of the eight regional hubs located across the country.
“The installation and operation of these tools at MIT.nano will have a direct impact on the members of the NEMC Hub, the Massachusetts and Northeast regional economy, and national security. This is what the CHIPS and Science Act is all about,” said Ben Linville-Engler, Deputy Director at the MassTech Collaborative and the interim director of the NEMC Hub.
MIT.nano is a 200,000 square-foot facility located in the heart of the MIT campus with pristine, class-100 cleanrooms capable of accepting these advanced tools. Its open-access model means that MIT.nano’s toolsets and laboratories are available not only to the campus but also to early-stage R&D by researchers from other academic institutions, non-profit organizations, government and companies ranging from Fortune 500 multinationals to local startups.