A new way of making complex structures in thin films
Self-assembling materials can form patterns that might be useful in optical devices.
Self-assembling materials can form patterns that might be useful in optical devices.
Along with studying theory, "it's also important to me that the work we are doing will help to solve real-world problems,” says LIDS student Omer Tanovic.
To predict building damage, Kostas Keremidis of the MIT Concrete Sustainability Hub is modeling structures as ensembles of atoms.
Method for collecting two electrons from each photon could break through theoretical solar-cell efficiency limit.
Professor Otto Cordero and colleagues ask: Can microbiome engineering make the Galapagos marine iguana more resilient to climate change?
Educators recognized for improving classroom instruction and student engagement through innovative uses of digital technology.
MIT biologist and electrical engineer are two of 38 naturalized U.S. citizens honored for contributions to American society.
Material developed at MIT can passively capture solar heat for home heating or industrial applications.
Annual MITEI awards support research on methane conversion, efficient energy provision, plastics recycling, and more.
An MIT/IBM system could help artists and designers make quick tweaks to visuals while also helping researchers identify “fake” images.
Engineers design surfaces that send rain flying away, potentially preventing icing or soaking.
System lets nonspecialists use machine-learning models to make predictions for medical research, sales, and more.
Attaching a Velcro-like molecule may prevent immune proteins called cytokines from leaking out of cancerous tissue after injection.
General-purpose language works for computer vision, robotics, statistics, and more.
By turning molecular structures into sounds, researchers gain insight into protein structures and create new variations.