A new way to make droplets bounce away
Engineers design surfaces that send rain flying away, potentially preventing icing or soaking.
Engineers design surfaces that send rain flying away, potentially preventing icing or soaking.
By turning molecular structures into sounds, researchers gain insight into protein structures and create new variations.
Novel materials made with FDA-approved components could deliver large payloads of active ingredients.
MIT researchers discover a material that changes electrical resistance only when a magnetic field is applied at a narrowly confined angle.
New technique makes it possible to image the fouling of membranes in 3-D, could lead to better antifouling materials.
Streamlined system for creating and analyzing perovskite compounds may cut development time from 20 years to two.
Simulations suggest photonic chip could run optical neural networks 10 million times more efficiently than its electrical counterparts.
Study finds baking soda, detergent, and table salt — all rich in sodium — are effective catalysts.
Selecta Bioscience’s ImmTOR platform could improve gene therapies and prevent some drug side effects.
“Metasurfaces” that manipulate light at tiny scales could find uses in cellphone lenses, smart-car sensors, and optical fibers.
Mechanical engineering researchers are inventing game-changing technologies and developing a renaissance in 3-D printing.
A slippery surface for liquids with very low surface tension promotes droplet formation, facilitating heat transfer.
Collaboration between MIT architect and chemical engineer could be at the center of new sustainable infrastructure for buildings.
Convergence research at MIT and beyond seeks new solutions for global challenges.
Researchers develop nanosized antibodies that home in on the meshwork of proteins surrounding cancer cells.