Engineers repurpose 19th-century photography technique to make stretchy, color-changing films
The technique opens a door to manufacturing of pressure-monitoring bandages, shade-shifting fabrics, or touch-sensing robots.
The technique opens a door to manufacturing of pressure-monitoring bandages, shade-shifting fabrics, or touch-sensing robots.
The chemistry professor embraces the most challenging moments of her work to design molecules for quantum information science.
Engineers working on “analog deep learning” have found a way to propel protons through solids at unprecedented speeds.
Cheap and quick to produce, these digitally manufactured plasma sensors could help scientists predict the weather or study climate change.
Single-shot spectroscopy techniques provide researchers with a new understanding of a mysterious light-driven process.
Researchers have found a material that can perform much better than silicon. The next step is finding practical and economic ways to make it.
This family of crystalline compounds is at the forefront of research seeking alternatives to silicon.
New results from researchers at MIT reveal an unexpected feature of atomic nuclei when a “magic” number of neutrons is reached.
Systems used in many industries could save energy through these new surface treatments.
Building and working a clay-and-grass furnace, teachers and students learn more than how to turn ore into metal.
The MIT professor's work could enable long-term storage of renewable energy.
The five-year collaboration aims to accelerate the translation of breakthrough engineering and biology for human health.
Earning the top spot for the 11th straight year, the Institute also places first in 12 subject areas.
Rapid and accurate analytical test method enhances the production of high-quality cell therapy products.
Study shows what happens when crystalline grains in metals reform at nanometer scales, improving metal properties.