MIT hackathon tackles real-world challenges in Ukraine
Build for Ukraine 2.0 united students, researchers, and Ukrainian collaborators to prototype solutions shaped by wartime conditions.
MIT.nano
Why solid-state batteries keep short-circuiting
New insights into metallic cracks that harm battery performance could advance the longstanding quest to develop energy-dense solid-state batteries.
Active Surfaces aims to install peel-and-stick solar panels everywhere
This award-winning startup with roots at the MIT Energy Initiative is developing lightweight, flexible, high-efficiency solar energy films designed to be used on roofs, walls, and any curved surface.
New sensor sniffs out pneumonia on a patient’s breath
The technology could enable fast, point-of-care diagnoses for pneumonia and other lung conditions.
LAB14 joins the MIT.nano Consortium
The advanced manufacturing group becomes a member and will contribute equipment to MIT.nano.
Tackling industry’s burdensome bubble problem
MIT researchers uncovered the physics behind bubble-removing membranes that could improve bioreactors, chemical production, and more.
Exploring materials at the atomic scale
The X-ray diffraction and imaging facility at MIT.nano adds a new tool to support research in a wide variety of disciplines.
A quick stretch switches this polymer’s capacity to transport heat
The flexible material could enable on-demand heat dissipation for electronics, fabrics, and buildings.
3D-printed metamaterials that stretch and fail by design
New framework supports design and fabrication of compliant materials such as printable textiles and functional foams, letting users predict deformation and material failure.
Terahertz microscope reveals the motion of superconducting electrons
For the first time, the new scope allowed physicists to observe terahertz “jiggles” in a superconducting fluid.
Pills that communicate from the stomach could improve medication adherence
MIT engineers designed capsules with biodegradable radio frequency antennas that can reveal when the pill has been swallowed.
New materials could boost the energy efficiency of microelectronics
By stacking multiple active components based on new materials on the back end of a computer chip, this new approach reduces the amount of energy wasted during computation.
Jennifer Lewis ScD ’91: “Can we make tissues that are made from you, for you?”
In the 2025 Dresselhaus Lecture, the materials scientist describes her work 3D printing soft materials ranging from robots to human tissues.
Ultrasonic device dramatically speeds harvesting of water from the air
The system can be paired with any atmospheric water harvesting material to shake out drinking water in minutes instead of hours.
From nanoscale to global scale: Advancing MIT’s special initiatives in manufacturing, health, and climate
MIT.nano cleanroom complex named after Robert Noyce PhD ’53 at the 2025 Nano Summit.