Nanoscience and nanotechnology

Moungi Bawendi sits on a sofa in his living room, looking at laptop in front of him on a coffee table and speaking into a cell phone. His wife, Rachel Zimmerman, sits in the background taking his photo on her cellphone.

Photos: Moungi Bawendi’s first day as a Nobel laureate

A look at how the MIT professor spent his day after learning he had won the Nobel Prize in Chemistry.

October 4, 2023

Moungi Bawendi's head and hands appear against a black background and over a rainbow-colored row of vials

MIT Professor Moungi Bawendi shares Nobel Prize in Chemistry

For his work on techniques to generate quantum dots of uniform size and color, Bawendi is honored along with Louis Brus and Alexei Ekimov.

October 4, 2023

Close-up photo of a quantum repeater module mounted on a gold-plated copper assembly and connected to green printed circuit boards, with optical fibers routed up.

Quantum repeaters use defects in diamond to interconnect quantum systems

This technology for storing and transmitting quantum information over lossy links could provide the foundation for scalable quantum networking.

September 27, 2023

A collage of six photos showing groups of people at MIT.nano family day.

MIT.nano Family Day invites those at home to come to work

Staff share nano experience — and ice cream — with their families.

September 18, 2023

Seven rows of paired almond-shaped objects are colored red, green, and yellow. Each pair is very similar to each other.

Pixel-by-pixel analysis yields insights into lithium-ion batteries

In a first, researchers have observed how lithium ions flow through a battery interface, which could help engineers optimize the material’s design.

September 13, 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

A nasal vaccine, labeled with a twisty RNA icon, sprays mist and is surrounded by large red Covid-19 molecules.

MIT engineers design more powerful RNA vaccines

The new approach could lead to intranasal vaccines for Covid-19 and other respiratory diseases.

September 7, 2023

Two rows of vials, and each has smaller chambers with white fluid inside them.

How to prevent biofilms in space

Microbial or fungal biofilms on spacecraft can clog hoses and filters, or make astronauts sick. Space Station tests show that a surface treatment can help.

September 7, 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

A closeup of the laser equipment shows metallic rods, a circuit board, wires, and lenses, all in a green glow.

Sensing and controlling microscopic spin density in materials

By fine-tuning the spin density in some materials, researchers may be able to develop new quantum sensors or quantum simulations.

August 2, 2023

A rectangular vector map with hexagons distorted on the left by squeezing and on the right by stretching, showing how charged particles are directed to the top or bottom edge of the map

New quantum magnet unleashes electronics potential

Researchers discover how to control the anomalous Hall effect and Berry curvature to create flexible quantum magnets for use in computers, robotics, and sensors.

July 25, 2023

A photo depicts the square-shaped sensor next to a quarter, showing its small size. The sensor has square sections and lots of vertical lines, and in one section the lines form a triangular shape. On the top and bottom of the image, there are stripes showing cell bunches.

New sensor mimics cell membrane functions

The device detects the same molecules that cell receptors do, and may enable routine early screening for cancers and other diseases.

July 21, 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

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