Electronics

Between layers of graphene are 4 paired, shiny electrons. 2 are blue and 2 are red, and whisps of glowing energy connect them together. They have rings like Saturn, and these rings move them clockwise or counter-clockwise.

From a five-layer graphene sandwich, a rare electronic state emerges

A newly discovered type of electronic behavior could help with packing more data into magnetic memory devices.

October 18, 2023

A robotic hand with finger-shaped sensors grabs an orange marble.

Finger-shaped sensor enables more dexterous robots

MIT engineers develop a long, curved touch sensor that could enable a robot to grasp and manipulate objects in multiple ways.

October 4, 2023

Nine interns pose for a group photo in front of an orange wall.

Internships fabricate a microelectronics future

Lincoln Laboratory hosts students enrolled in the Massachusetts Microelectronics Internship Program, aimed at training a new generation of microelectronics leaders.

September 11, 2023

Colorful abstract drawing with blue lightning streaks on the left, gold microcircuits on the right, and a computer chip with a lighting bolt in the middle

System combines light and electrons to unlock faster, greener computing

“Lightning” system connects photons to the electronic components of computers using a novel abstraction, creating the first photonic computing prototype to serve real-time machine-learning inference requests.

September 11, 2023

Qijun Liu, Maria Eugenia Inda, and Miguel Jimenez, all in lab coats and nitrile gloves, pose with prototypes of a pill-like capsule and a glass vial with yellow liquid

Smart pill can track key biological markers in real-time

Coupling engineered bacteria with low-power electronics could be highly effective in diagnosis, treatment of bowel diseases.

September 8, 2023

Eight piezoelectric transducers look like toilet paper rolls and are attached to poles, near water.

Device offers long-distance, low-power underwater communication

The system could be used for battery-free underwater communication across kilometer-scale distances, to aid monitoring of climate and coastal change.

September 6, 2023

The Noncontact Laser Ultrasound optical head, a collection of circuits and wires on a black square pegboard, is suspended at the end of a robotic arm inside a large atrium filled with windows looking toward a blue sky.

Laser-based system achieves noncontact medical ultrasound imaging

Noncontact Laser Ultrasound offers capabilities comparable to those of MRI and CT but at vastly lower cost, in an automated and portable platform.

August 24, 2023

Realistic drawing of a printed circuit board, with circuit lines projecting above it in the shape of a brain

Machine-learning system based on light could yield more powerful, efficient large language models

MIT system demonstrates greater than 100-fold improvement in energy efficiency and a 25-fold improvement in compute density compared with current systems.

August 22, 2023

Schematic of a superconducting diode. A pink rectangle rests atop a grey one, and lines with green arrows circle out of the pink block, down around the grey one, and then back into the pink block on the other side.

Simple superconducting device could dramatically cut energy use in computing, other applications

The ultrasmall “switch” could be easily scaled.

August 15, 2023

A blue squiggle-like DNA graphic points down in the center emitting light downwards. Two red DNA graphics are pointed up beside it. A structured array composed of triangular rods lie flat on dark gray surface, while the top rows of the arrays contain pieces resembling red pills.

Arrays of quantum rods could enhance TVs or virtual reality devices

MIT engineers developed a new way to create these arrays, by scaffolding quantum rods onto patterned DNA.

August 11, 2023

5 people stand on stage holding 2 gigantic checks that say they’ve won $100k and $10k. In the background, a large red and beige sculpture says MIT $100K.

3 Questions: What’s it like winning the MIT $100K Entrepreneurship Competition?

The founders of MIT spinout Active Surfaces describe their thin-film solar technology and their experience winning this year’s $100K.

July 26, 2023

6 unique star-like objects are made up of 8 teardrop-shaped grey nanocrystals. They glow green.

Researchers grow precise arrays of nanoLEDs

A new technique produces perovskite nanocrystals right where they’re needed, so the exceedingly delicate materials can be integrated into nanoscale devices.

July 6, 2023

A close-up shot of a superconducting qubit wafer, showing microfabricated circuits

Superconducting qubit foundry accelerates progress in quantum research

The foundry gives the wider research community access to Lincoln Laboratory’s expertise in fabricating quantum circuits.

July 5, 2023

Decorative image shows a bending rainbow lattice on black background.

Physicists discover a new switch for superconductivity

The results could help turn up unconventional superconducting materials.

June 22, 2023

Between two petri dishes and on a rectangle of glass is a tiny device made from the new Jell-O-like polymer hydrogel. Shaped like a rake, it has paths inside to connect electrodes.

MIT engineers develop a soft, printable, metal-free electrode

A new Jell-O-like material could replace metals as electrical interfaces for pacemakers, cochlear implants, and other electronic implants.

June 15, 2023

MIT News | Massachusetts Institute of Technology

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