Tomás Palacios named new director of the Microsystems Technology Laboratories
Palacios has served as director of the 6-A MEng Thesis Program, industry officer, and professor of electrical engineering.
Palacios has served as director of the 6-A MEng Thesis Program, industry officer, and professor of electrical engineering.
MMIP aims to incentivize more students to consider a career in semiconductors and microelectronics, addressing a crucial, nationwide talent gap.
The materials’ stiffness increases up to 40 percent, in a reversible effect, the researchers report in a study that also explains the phenomenon's atomic origins.
The Massachusetts senator toured MIT.nano and held a roundtable with university leaders to discuss how the new law could advance research and education in the state.
President L. Rafael Reif and Vice President for Research Maria Zuber helped shape aspects of the bill, which aims to advance U.S. science.
Researchers have found a material that can perform much better than silicon. The next step is finding practical and economic ways to make it.
Global Semiconductor Alliance’s Women’s Leadership Initiative highlights career opportunities for women in hard technology.
A novel photolithography technique could be a manufacturing game-changer for optical applications.
Primary focus will be to advance and promote technology, innovation, and entrepreneurship across the school.
MIT, RPI, and SUNY convene a national conversation on semiconductor tech translation and hard-tech startups.
MIT AI Hardware Program launches with five inaugural companies to advance AI technologies for the next decade.
The advanced research and prototyping facility will yield complex, integrated microelectronic components to enable scientific discovery and solve national security challenges.
Doctoral candidate Nina Andrejević combines spectroscopy and machine learning techniques to identify novel and valuable properties in matter.
MIT researchers lay out a strategy for how universities can help the US regain its place as a semiconductor superpower.
Ultrastable and made of inexpensive, nontoxic elements, chalcogenide perovskites could find applications in solar cells, lighting, and more.