A new way to generate light using pre-existing defects in semiconductors
SMART researchers demonstrate a practical way to make indium gallium nitride LEDs with considerably higher indium concentration.
SMART researchers demonstrate a practical way to make indium gallium nitride LEDs with considerably higher indium concentration.
In a study that could benefit quantum computing, researchers show a superlattice embedded with nanodots may be immune from dissipating energy to the environment.
The advance could cut production costs and reduce the size of microelectronics for sensing and communication.
A quantum effect in topological semimetals demonstrated by MIT researchers could allow for the utilization of an untapped energy source.
In a new realm of materials, PhD student Thanh Nguyen uses neutrons to hunt for exotic properties that could power real-world applications.
MIT researchers grow perfectly shaped germanium tunnels on silicon oxide with controllable length.
Long-time EECS professor and Lincoln Laboratory division head is best known for research on transistors, lasers, and masers.
A lifelong fascination with chemistry has led to research on exotic new materials with environmental advantages.
Scientists invent technique to map energy and momentum of electrons beneath a material’s surface.
Award recognizes outstanding contributions to the field of crystal growth and epitaxy, the development of crystals for use in photonics, microelectronics, and more.
MIT's newest faculty bring a wide array of energy interests and developments to the Institute.
Eugene Fitzgerald pursues new models for innovation in electronics as part of the Singapore-MIT Alliance for Research and Technology.
Lionel Kimerling, Rajeev Ram, and other MIT researchers explore practical ways to bring optical interconnection toward and directly onto chips.
Gallium nitride electronics could drastically cut energy usage in data centers, consumer devices.
Pioneer in semiconductors created MIT's magnet laboratory and served as associate director of the MIT Lincoln Laboratory.