Discovery suggests new promise for nonsilicon computer transistors
Once deemed suitable only for high-speed communication systems, an alloy called InGaAs might one day rival silicon in high-performance computing.
Once deemed suitable only for high-speed communication systems, an alloy called InGaAs might one day rival silicon in high-performance computing.
Applications and challenges of sensing technology have been accelerated by Covid-19.
NCSOFT-sponsored grants to advance hardware and software for immersive experiences.
Physicist is recognized for his groundbreaking research on twistronics.
Optical communication device and electrical equipment manufacturing company to advise, collaborate with MIT researchers.
Commitment to sustainable practices earns top honor from the U.S Green Building Council.
Normally an insulator, diamond becomes a metallic conductor when subjected to large strain in a new theoretical model.
Using these new particles, researchers could develop treatments for heart disease and other conditions.
Instrument can provide information on various properties of thin films via a combination of optical characterization and modeling.
The novel approach, developed by MIT chemical engineers, could help create more efficient consumer products, including drugs, cosmetics, and food.
MIT researchers develop integrated lightwave electronic circuits to detect the phase of ultrafast optical fields.
Specialized nanoparticles create a “breath signal” that could be used to diagnose pneumonia and other infectious or genetic diseases.
Magnetic nanodiscs can be activated by an external magnetic field, providing a research tool for studying neural responses.
MIT and Northwestern researchers create hybrid perovskite materials that could help improve the quality of solar cells and light sources.