: A collaboration between MIT and Applied Materials has created an open-access site at MIT.nano equipped with 200mm advanced research tools identical to those in high-volume production fabs.
MIT is actively leading a national strategy to reassert U.S. preeminence in the semiconductor industry. This effort focuses on leveraging university research to pioneer breakthrough technologies while building a robust, highly skilled workforce to support domestic manufacturing. : A collaboration between MIT and Applied Materials
: Research into alternatives like cubic boron arsenide , which offers higher mobility than silicon, could lead to faster, smaller chips. This effort focuses on leveraging university research to
: MIT and the NEMC Hub partner with high schools to expand awareness of advanced manufacturing and semiconductor careers. which offers higher mobility than silicon
: Participation in the Global Semiconductor Alliance Women’s Leadership Initiative aims to elevate women in industry leadership and board positions. Key Strategic Partnerships
: A collaboration between MIT and Applied Materials has created an open-access site at MIT.nano equipped with 200mm advanced research tools identical to those in high-volume production fabs.
MIT is actively leading a national strategy to reassert U.S. preeminence in the semiconductor industry. This effort focuses on leveraging university research to pioneer breakthrough technologies while building a robust, highly skilled workforce to support domestic manufacturing.
: Research into alternatives like cubic boron arsenide , which offers higher mobility than silicon, could lead to faster, smaller chips.
: MIT and the NEMC Hub partner with high schools to expand awareness of advanced manufacturing and semiconductor careers.
: Participation in the Global Semiconductor Alliance Women’s Leadership Initiative aims to elevate women in industry leadership and board positions. Key Strategic Partnerships