MIT researchers advance toward greater bandwidth, more energy-efficient communications
The FUTUR-IC research program integrates electronics and photonics in microchip systems.
The FUTUR-IC research program integrates electronics and photonics in microchip systems.
MIT researchers’ approach captures subtle atomic patterns, improving predictions of material properties.
Ranking at the top for the 15th year in a row, the Institute also places first in 12 subject areas.
Low-cost personal cooling and emissions-free air conditioning among ideas studied with MIT’s Climate Project seed funding.
IAIFI enters its second phase with increased funding, broader ambitions, and a growing community at the frontier of AI and fundamental physics.
Introducing weaker bonds into polystyrene and rubber helps these materials dissipate energy, making them more resistant to destructive forces.
The low-temperature process could unlock cleaner lithium from America’s abundant hard rock while minimizing waste.
MIT senior Nik Sandu bridges scientific research with a strong commitment to teaching and community.
Ferrium C61 was designed with the aid of computers in a field pioneered at the Institute.
The MIT Marble Center for Cancer Nanomedicine looks back at 10 years of turning big ideas about nanotechnology into transformative advances for cancer patients.
A new method for precisely moving columns of individual atoms within a material could give rise to exotic quantum properties.
Camille Cunin PhD ’26 is transforming rigid circuitry into stretchable, signal-amplifying devices built for real-world biomedical use.
Faculty members and researchers were honored in recognition of their scholarship, service, and overall excellence.
Relaxor ferroelectrics have been used in electronics and sensors for decades, but the source of their unique properties was a mystery until now.
In her new book, “Birds Up Close,” MIT materials engineer Lorna Gibson explores feathers, bones, bills, eggs, and flight, and the mechanics behind birds’ extraordinary abilities.