Materials Science and Engineering

Portrait photos of Ian Chen and Kyle Markland

MIT team places 3rd in materials design competition with novel 3D printable metal

New material could be used by Tesla to produce all-electric vehicles with just a few massive parts.

October 3, 2022

Orange-purple illustration of windmills with dynamic, streaky sky.

3 Questions: Janelle Knox-Hayes on producing renewable energy that communities want

New position paper calls for getting stakeholders involved in wind power projects from the start.

September 21, 2022

This rooftop photo shows two scales, each holding thick square devices covered in foil. The blue sky is reflected on the foil, and the devices are attached to wires. The left device has a circular indention with white material on top.

Passive cooling system could benefit off-grid locations

Relying on evaporation and radiation — but not electricity — the system could keep food fresh longer or supplement air conditioning in buildings.

September 20, 2022

Photo illustration of a man drawing his ideas on an invisible wall

SMART Innovation Center awarded five-year NRF grant for new deep tech ventures

By providing researchers with financial and strategic support from the early stages, the Innovation Center hopes to bring new and disruptive technologies to market.

September 13, 2022

Side-by-side headshots of Patrick Doyle and Rafael Gomez-Bombarelli. Text underneath says J-WAFS Solutions Program

J-WAFS awards $150K Solutions grant to Patrick Doyle and team for rapid removal of micropollutants from water

The grant will enable pilot-scale water treatment systems to be built and tested using sustainable hydrogel microparticles.

September 7, 2022

Bright yellow, orange, and red ball of plasma shines next to two nozzles. The rest of the scene is primarily purple.

MIT students contribute to success of historic fusion experiment

Students are part of large team that achieved fusion ignition for the first time in a laboratory.

September 6, 2022

Harry Tuller and student pose for a photo in a lab, with a computer screen on a table between them showing data

A simple way to significantly increase lifetimes of fuel cells and other devices

MIT researchers find that changing the pH of a system solves a decades-old problem.

August 31, 2022

Photo of Rafael Gómez-Bombarelli and Daniel Schwalbe-Koda standing together in an office next to a window through which you can see the MIT dome. Schwalbe-Koda holds up a zeolite model.

Designing zeolites, porous materials made to trap molecules

MIT engineers are controlling pore openings for maximum molecule capture.

August 24, 2022

Three small glasses on a table hold (left to right), tiny silver-colored aluminum beads, a brownish orange liquid, and white salt crystals

A new concept for low-cost batteries

Made from inexpensive, abundant materials, an aluminum-sulfur battery could provide low-cost backup storage for renewable energy sources.

August 24, 2022

Building better batteries, faster

PhD student Pablo Leon uses machine learning to expedite research on novel battery materials, while helping newer students navigate graduate school.

August 24, 2022

This illustration shows a device wirelessly transmitting signals to a chip-free patch on a person’s skin.

Engineers fabricate a chip-free, wireless electronic “skin”

The device senses and wirelessly transmits signals related to pulse, sweat, and ultraviolet exposure, without bulky chips or batteries.

August 18, 2022

Photo of Jiahao Dong sitting at a desk with two monitors in Jaramillo lab. A large piece of lab equipment labeled “TriboIndenter” is in the foreground.

MIT team reports giant response of semiconductors to light

The materials’ stiffness increases up to 40 percent, in a reversible effect, the researchers report in a study that also explains the phenomenon's atomic origins.

August 15, 2022

Harry L. Tuller sits in a chair in front of a bookcase in his office at MIT.

Harry Tuller honored for career advancing solid-state chemistry and electrochemistry

The materials scientist’s research involves the movement of electric charges through solids, which could lead to better-performing fuel cells and batteries.

August 12, 2022

New programmable materials can sense their own movements

Engineers 3D print materials with networks of sensors directly incorporated.

August 10, 2022

A better way to quantify radiation damage in materials

More complete than existing methods, the new approach might enable longer operational lifetimes for nuclear reactors.

August 3, 2022

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MIT team places 3rd in materials design competition with novel 3D printable metal

3 Questions: Janelle Knox-Hayes on producing renewable energy that communities want

Passive cooling system could benefit off-grid locations

SMART Innovation Center awarded five-year NRF grant for new deep tech ventures

J-WAFS awards $150K Solutions grant to Patrick Doyle and team for rapid removal of micropollutants from water

MIT students contribute to success of historic fusion experiment

A simple way to significantly increase lifetimes of fuel cells and other devices

Designing zeolites, porous materials made to trap molecules

A new concept for low-cost batteries

Building better batteries, faster

Engineers fabricate a chip-free, wireless electronic “skin”

MIT team reports giant response of semiconductors to light

Harry Tuller honored for career advancing solid-state chemistry and electrochemistry

New programmable materials can sense their own movements

A better way to quantify radiation damage in materials

Browse By

Topics

Departments

Centers, Labs, & Programs

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Materials Science and Engineering