Quantum materials: A new paradigm for computing?
Diamond spintronics and graphene-based infrared detectors are among leading-edge technologies reported at annual Materials Day Symposium at MIT.
Diamond spintronics and graphene-based infrared detectors are among leading-edge technologies reported at annual Materials Day Symposium at MIT.
Jeffrey Grossman applies new materials research to making desalination cheaper and more efficient.
Like biological channels, graphene pores are selective for certain types of ions.
MIT graduate student Qiong Ma is uncovering electrical properties of graphene-based devices using laser-light stimulation.
New manufacturing process could take exotic material out of the lab and into commercial products.
Researchers find a way of tuning light waves by pairing two exotic 2-D materials.
MIT postdoc Javier Sanchez-Yamagishi charts quantum signatures of electronic transport in graphene.
MIT physics professor has played a leading role in the development of revolutionary new artificial materials.
New technique uses carbon nanotube film to directly heat and cure composite materials.
New mechanism of photoconduction could lead to next-generation excitonic devices.
Two-dimensional carbon “paper” can form stretchable supercapacitors to power flexible electronic devices.
Discovery might ultimately lead to new, more energy-efficient transistors and microchips.
Finding could allow ultrafast switching of conduction, and possibly lead to new broadband light sensors.
Technique might enable advances in display screens, solar cells, or other devices.