A new approach to rechargeable batteries
New metal-mesh membrane could solve longstanding problems and lead to inexpensive power storage.
New metal-mesh membrane could solve longstanding problems and lead to inexpensive power storage.
Researchers observe, for the first time, topological effects unique to an “open” system.
New model measures characteristics of carbon nanotube structures for energy storage and water desalination applications.
New technique developed at MIT could produce strong, resilient nanofibers for many applications.
Illumination from nanobionic plants might one day replace some electrical lighting.
New design could dramatically cut energy waste in electric vehicles, data centers, and the power grid.
Subnanometer-scale channels in 2-D materials could point toward future electronics, solar cells.
Symposium commemorates the life and career of pioneering professor and beloved mentor Mildred Dresselhaus.
Department of Chemical Engineering Professor Zachary Smith is working on new polymeric membranes that can greatly reduce energy use in chemical separations.
Novel structures made with DNA scaffolds could be used to create solar-powered materials.
New delivery system developed by MIT team deletes disease-causing genes and reduces cholesterol.
Electronic circuits reveal when a plant begins to experience drought conditions.
Condensation-based method developed at MIT could create stable nanoscale emulsions.
Professor Paula Hammond uses nanoscale biomaterials to craft anti-cancer treatments tiny enough to get through the bloodstream and enter tumors.
Monterrey Tec Chairman José Antonio Fernández Carbajal tours MIT.nano during his first meeting as the newest member of the MIT Corporation.