An LED that can be integrated directly into computer chips
The advance could cut production costs and reduce the size of microelectronics for sensing and communication.
Model could help determine quarantine measures needed to reduce Covid-19’s spread
A key finding: Early reopening last spring led to a dramatic drop in “quarantine strength” in southern and west-central U.S. states.
SMART researchers engineer a plant-based sensor to monitor arsenic levels in soil
Nanoscale devices integrated into the leaves of living plants can detect the toxic heavy metal in real time.
Students present product prototypes inspired by kindness
Professor David Wallace and his team developed class 2.s009 (Explorations in Product Design) to give students the safest, best possible hands-on educational experience.
A cool advance in thermoelectric conversion
A quantum effect in topological semimetals demonstrated by MIT researchers could allow for the utilization of an untapped energy source.
Explained: Why RNA vaccines for Covid-19 raced to the front of the pack
Many years of research have enabled scientists to quickly synthesize RNA vaccines and deliver them inside cells.
An engineering student expands her focus
For senior Danielle Grey-Stewart, a pivotal experience away from campus led to a new sense of purpose at MIT.
SMART researchers use lysins to selectively target bacteria
The discovery can help to cure bacterial infections without inducing resistance or causing harm to good bacteria.
Automating material-matching for movies and video games
Animators spend hours adding textures to objects. A new machine-learning system simplifies the process.
Researchers find a better way to design metal alloys
System uses machine learning to analyze boundaries between crystal grains, allowing for selection of desired properties in a new metal.
Explained: Quantum engineering
Quantum computers could usher in a golden age of computing power, solving problems intractable on today’s machines.
Amanda Hubbard honored with Secretary of Energy’s Appreciation Award
PSFC principal researcher is acknowledged for work with U.S. Burning Plasma Organization.
Q&A: Valencia Joyner Koomson ’98, MNG ’99 on new possibilities in microelectronic health systems
MLK Visiting Scholar focuses on microelectronics for cell analysis and biomedical applications.
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.
Straight talk about race in academia
MIT-hosted panel delves into ongoing challenges for Black scholars — and ways for everyone in university settings to start making a difference.