A better way to shed water
MIT researchers find that lubricated, nanotextured surfaces improved performance of condensers in power and desalination plants.
MIT researchers find that lubricated, nanotextured surfaces improved performance of condensers in power and desalination plants.
Working from the scale of atoms on up, he designs materials for future energy applications.
Fundamental reactions behind advanced battery technology, revealed in detail by advanced imaging method, could lead to improved materials.
Analysis of molecular-level fracture and stress mechanisms could have broad implications for understanding materials’ behavior.
Department of Nuclear Science and Engineering takes an interdisciplinary approach
MIT team finds way to manipulate and measure magnetic particles without contact, potentially enabling multiple medical tests on a tiny device.
In a yearlong residency, the musician and instrument designer will build a glass orchestra with MIT students.
MIT-led research team finds that protein significantly reduces infected cells’ ability to squeeze through tiny channels compared to healthy cells.
Method developed by MIT researchers could produce materials with exceptional strength and other properties.
MIT researchers produce complex electronic circuits from molybdenum disulfide, a material that could have many more applications.
Biological structures may help engineers design new materials.
New findings show that the material beneath the thin carbon sheets determines how they react chemically and electrically.
MIT team discovers way of making perfectly ordered and repeatable surfaces with patterns of microscale wrinkles.
New technique allows production of complex microchip structures in one self-assembling step.