Research Laboratory of Electronics
Researchers build a toolbox for synthetic biology
Engineers design new proteins that can help control novel genetic circuits in cells.
Single-photon transmitter could enable new quantum devices
Long-sought goal for quantum devices — the ability to transmit single photons while blocking multiple photons — is finally achieved.
Five MIT researchers win presidential early career honors
Jarillo-Herrero, Lu, Pathak, Sinha and Thaler among 96 winners.
A physicist and an inventor
New technologies from Marin Soljacic’s lab could have a far-reaching impact on daily life.
Fiber laser points to woven 3-D displays
A fiber that can emit light along its length in any direction may herald flexible 3-D displays and medical tools that activate therapeutic compounds with bursts of light.
Microchips’ optical future
To keep energy consumption under control, future chips may need to move data using light instead of electricity — and the technical expertise to build them may reside in the United States.
3-D cameras for cellphones
Clever math could enable a high-quality 3-D camera so simple, cheap and power-efficient that it could be incorporated into handheld devices.
Self-aware computing project named a 'world changing' idea by Scientific American
Project Angstrom selected by magazine's editors; featured in December issue
David Staelin, longtime professor in EECS and RLE, dies at 73
Researcher led a career distinguished by abundant accomplishments, widespread impact in his 55 years at MIT.
Charging toward better neural implants
Researchers improve the efficiency of devices that stimulate damaged nerves, reducing potential side effects.
Mimicking cells with transistors
Analog — rather than digital — circuits could enable models of biological systems that are more efficient, more accurate and easier to build.
Building chips from collapsing nanopillars
By turning a common problem in chip manufacture into an advantage, MIT researchers produce structures only 30 atoms wide.
Movies of electrons
Lasers that emit pulses lasting a quintillionth of a second could characterize the behavior of individual electrons during chemical reactions.
Perfect communication with imperfect chips
Error-correcting codes discovered at MIT can still guarantee reliable communication, even in cellphones with failure-prone low-power chips.