MIT.nano

Related Faculty and Related Articles


Artistic depiction of cyan superfluid wave in layered superconductor.
Terahertz microscope reveals the motion of superconducting electrons

3d rendering shows yellow energy shooting across layers of graphene
Physicists measure a key aspect of superconductivity in “magic-angle” graphene

blue flow
MIT physicists find unexpected crystals of electrons in new ultrathin material

chip surface showing light on chip
Scientists develop an affordable sensor for lead contamination

red microchip
Turning up the heat on next-generation semiconductors

equipment with man standing next to it
New MIT.nano equipment to accelerate innovation in “tough tech” sectors

Professor Vladimir Bulovic
Celebrating five years of MIT.nano

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 rectangular vector map with haxagons 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

two silver devices with particles in the middle
Study reveals new ways for exotic quasiparticles to “relax”

Pablo Jarillo-Herrero image
Pablo Jarillo-Herrero delivers 2022 Dresselhaus Lecture on the magic of moiré quantum matter

thin film image
Paper-thin solar cell can turn any surface into a power source

die bonder machine
Desktop simulation of MIT.nano die bonder enables virtual tool training

James LeBeau
Inspiration at the atomic scale

Acoustic surface
Researchers develop a paper-thin loudspeaker