Giving keener “electric eyesight” to autonomous vehicles
On-chip system that detects signals at sub-terahertz wavelengths could help steer driverless cars through fog and dust.
On-chip system that detects signals at sub-terahertz wavelengths could help steer driverless cars through fog and dust.
Process developed at MIT could turn concentrated brine into useful chemicals, making desalination more efficient.
As machine learning expands into climate modeling, EAPS Associate Professor Paul O’Gorman answers what that looks like and why it's important now.
Zhiwei Yun seeks to connect seemingly disparate fields in mathematics.
Overactive repair system promotes cell death following DNA damage by certain toxins, study shows.
J-WAFS-funded MIT research team shows a new method of fertilizer production can better suit the needs of farms in Africa and around the globe.
New system of “strain engineering” can change a material’s optical, electrical, and thermal properties.
The prestigious awards are supporting five innovative projects that challenge established norms and have the potential to be world-changing.
Technique sheds light on cells’ health and development; may be useful for precision medicine.
Brent Minchew has flown presidents and foreign dignitaries on Marine One. Today he studies how ice sheets evolve and respond to changing climate.
Results show bacterial genomes provide “shadow history” of animal evolution.
New results show how varying the recipe could bring these materials closer to commercialization.
Capsule that releases insulin in the stomach could replace injections for patients with type 1 diabetes.
The need to produce just the right amount of protein is behind the striking uniformity of sizes.
Research from the lab of assistant professor of chemistry Gabriela Schlau-Cohen advances the understanding of plants' photosynthetic machinery.