Materials Research Laboratory

Photo of Jonathan Pelliciari in a lab, wearing a face mask and holding onto a large instrument with many metal knobs and wires

Physicists uncover secrets of world’s thinnest superconductor

First experimental evidence of spin excitations in an atomically thin material helps answer 30-year-old questions, could lead to better medical diagnostics and more.

June 21, 2021

Photo of Daniel Rodan-Legrain standing next to a high-tech assemblage of tubes and disks

MIT turns “magic” material into versatile electronic devices

Work on three graphene-based devices may yield new insights into superconductivity.

May 19, 2021

Physicists find a novel way to switch antiferromagnetism on and off

The findings could lead to faster, more secure memory storage, in the form of antiferromagnetic bits.

May 6, 2021

Illustrations showing an arrow (pointing right) leading to a larger red arrow (pointing up) that's surrounded by a red triangle of light and has a yellow circle at the top.

Nano flashlight enables new applications of light

Design of miniature optical systems could lead to future cell phones that can detect viruses and more.

May 4, 2021

Photo of multicolored handprints hanging from a clothesline with an inspirational quote.

Accounting for firms’ positive impacts on the environment

A new framework calculates companies’ beneficial environmental "handprints" as well as their negative footprints, to encourage eco-friendly actions.

March 29, 2021

Engineering the boundary between 2D and 3D materials

Cutting-edge microscope helps reveal ways to control the electronic properties of atomically thin materials.

February 26, 2021

Illustration featuring a lattice of clear hexagons and a lattice of blue and yellow hexagons, superimposed on undulating waves

Physicists discover important new property for graphene

Unconventional form of ferroelectricity could impact next-generation computing.

February 8, 2021

Closeup photo of wet concrete being smoothed for pavement

Unravelling carbon uptake in concrete pavements

MIT Concrete Sustainability Hub research finds natural carbon uptake in concrete could offset 5 percent of US pavement cement production emissions.

January 26, 2021

wide-field-of-view metalens capturing a 180° panorama of MIT’s Killian Court

Engineers produce a fisheye lens that’s completely flat

The single piece of glass produces crisp panoramic images.

September 18, 2020

“I'm hoping that MIT becomes a center for electron microscopy,” professor Frances Ross says. “There is nothing that exists with the capabilities that we are aiming for here.”

A wizard of ultrasharp imaging

To oversee its new cutting-edge electron microscopy systems, MIT sought out Frances Ross’ industry-honed expertise.

July 12, 2020

MIT Associate Professor Joseph Checkelsky searches for new crystalline materials, known as “quantum materials,” capable of hosting exotic new quantum phenomena.

Finding the right quantum materials

Associate Professor Joseph Checkelsky wins $1.7 million Emergent Phenomena in Quantum Systems Initiative grant to pursue search for new crystalline materials.

May 5, 2020

Terahertz waves are pervasive in our daily lives, and if harnessed, their concentrated power could potentially serve as an alternate energy source. Imagine, for instance, a cellphone add-on that passively soaks up ambient T-rays and uses their energy to charge your phone.

Energy-harvesting design aims to turn high-frequency electromagnetic waves into usable power

Device for harnessing terahertz radiation might help power some portable electronics.

March 27, 2020

MIT researchers have discovered a method to predict and control the length of tunnels in solid germanium by laterally growing it over silicon oxide strips (shown in yellow) on top of silicon (green), depicted from left to right. Germanium, shown in purple, smoothly covers the silicon but forms voids and tunnels (lighter shade of purple) where germanium and silicon oxide meet. The voids and tunnels...

A new facet for germanium

MIT researchers grow perfectly shaped germanium tunnels on silicon oxide with controllable length.

January 31, 2020

Inspired by tissue that keep mussels attached to rocks underwater, MIT graduate student Seth Cazzell (pictured) and Associate Professor Niels Holten-Andersen found that controlling pH enables reversible hydrogel formation.

Widening metal tolerance for hydrogels

MIT graduate student Seth Cazzell shows controlling pH enables reversible hydrogel formation in wider range of metal concentrations.

December 23, 2019

$Attendees joined a group photo at the 2019 MIT Alloy Design Workshop, which focused on bridging scale gaps, enabling complex alloy design through the understanding of fundamental nanoscale mechanisms of plasticity and fracture mechanics.$

Workshop connects microscale mechanics to real-world alloy design

“Micromechanics informed alloy design: Overcoming scale-transition challenges” focuses on bridging scale gaps.

December 17, 2019

MIT News | Massachusetts Institute of Technology

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