New ultrastiff, ultralight material developed
Nanostructured material based on repeating microscopic units has record-breaking stiffness at low density.
Nanostructured material based on repeating microscopic units has record-breaking stiffness at low density.
MIT Microphotonics Center joins iNEMI for 19-month project to develop technology road map.
System could provide first method for filtering light waves based on direction.
Team creates LEDs, photovoltaic cells, and light detectors using novel one-molecule-thick material.
Flexible materials could provide ways to manipulate sound and light.
New approach developed at MIT could generate power from sunlight efficiently and on demand.
Thermophotovoltaic system converts high heat to narrow spectrum tailored to solar cell profile
Device Research Laboratory scientists aim to control changes in phase of gases and liquids to reduce power consumption in heating and cooling systems.
MIT team documents a never-before-seen coupling of photons with electrons on the surface of an exotic crystal.
Researchers show that graphene — atom-thick sheets of carbon — could be used in photodetectors, devices that translate optical signals to electrical.
MIT researchers discover a new phenomenon that could lead to new types of lasers and sensors.
New system uses two-dimensional structures to guide plasmonic waves at ultrashort wavelength, offering a new platform for memory and computer chips.
New process developed at MIT could enable better LED displays, solar cells and biosensors — and foster basic physics research.
A new ‘metamaterial’ prevents electromagnetic waves from reflecting backward, pointing the way toward computer chips that move data with light.
Tiny cylinders help reveal how natural-light-harvesting antennae collect light with exceptional efficiency.