Materials Research Laboratory

overhead view of three physicists in the lab

Physicists discover — and explain — unexpected magnetism in an atomically thin material

The work introduces a new platform for studying quantum materials.

January 23, 2025

Illustration of quantum geometry for an electronic wave function looks like a colorful sphere with a plane draped over it.

Physicists measure quantum geometry for the first time

The work opens new avenues for understanding and manipulating electrons in materials.

January 13, 2025

Illustration shows rainbow-hued particles uniformly distributed on a deep blue background. A pair of cirlces labeled "E4" are shown orbiting in a circle at the center.

MIT physicists predict exotic form of matter with potential for quantum computing

New work suggests the ability to create fractionalized electrons known as non-Abelian anyons without a magnetic field, opening new possibilities for basic research and future applications.

November 18, 2024

How can electrons split into fractions of themselves?

Physicists surprised to discover electrons in pentalayer graphene can exhibit fractional charge. New study suggests how this could work.

November 18, 2024

Riccardo Comin stands in his lab, filled with cables and large equipment.

An exotic-materials researcher with the soul of an explorer

Associate professor of physics Riccardo Comin never stops seeking uncharted territory.

October 16, 2024

Molecule with six atoms. Nickel is labeled at the center of each, and two are highlighted with red arrows that say "exciton hopping"

Physicists report new insights into exotic particles key to magnetism

The work on excitons, originating from ultrathin materials, could impact future electronics and establishes a new way to study these particles through a powerful instrument at the Brookhaven National Laboratory.

August 1, 2024

Two schematics of the crystal structure of boron nitride, one slightly slightly different. An arrow with "Slide" appears between them.

New transistor’s superlative properties could have broad electronics applications

Ultrathin material whose properties “already meet or exceed industry standards” enables superfast switching, extreme durability.

July 26, 2024

Illustrated blue and purple motion-blurred spheres travel a path resembling a highway

Physicists create five-lane superhighway for electrons

The work could lead to ultra-efficient electronics and more.

June 4, 2024

Dramatic lighting highlights a futuristic computer chip on a stylized circuit board.

Two MIT teams selected for NSF sustainable materials cooperative agreements

The MIT-led projects will investigate novel high-performance designs, materials, processes, and assessment methods for an environmentally sustainable microchip industry.

April 25, 2024

A grayscale photograph of Professor Bernie Wuensch in his office, surrounded by books and heaps of papers, welcoming the camera with open arms and a warm smile

Professor Emeritus Bernhardt Wuensch, crystallographer and esteemed educator, dies at 90

A pioneer in solid-state ionics and materials science education, Wuensch is remembered for his thoughtful scholarship and grace in teaching and mentoring.

April 23, 2024