- News
- About
About the Department
- Prospective Students
Prospective Students
- Current Students
Current Students
- Subjects
Subjects
- Research
Research
- People
People
- Events
Events
- Giving
Giving
- Policies
From left: Prof. Ray Ashoori, postdocs Andrea Young and Ben Hunt, graduate
student Javier Sanchez-Yamagishi, and Prof. Pablo Jarillo-Herrero.
PHOTO: JARILLO-HERRERO AND ASHOORI GROUPS
Stacking 2-D materials produces surprising results
New experiments reveal previously unseen effects, could lead to new kinds of electronics and optical devices.
Graphene has dazzled scientists, ever since its discovery more than a decade ago, with its unequalled electronic properties, its strength and its light weight. But one long-sought goal has proved elusive: how to engineer into graphene a property called a band gap, which would be necessary to use the material to make transistors and other electronic devices.
Now, new findings by researchers at MIT are a major step toward making graphene with this coveted property. The work could also lead to revisions in some theoretical predictions in graphene physics.
The new technique involves placing a sheet of graphene — a carbon-based material whose structure is just one atom thick — on top of hexagonal boron nitride, another one-atom-thick material with similar properties. The resulting material shares graphene’s amazing ability to conduct electrons, while adding the band gap necessary to form transistors and other semiconductor devices.
The work is described in a paper in the journal Science co-authored by Pablo Jarillo-Herrero, the Mitsui Career Development Assistant Professor of Physics at MIT, Professor of Physics Ray Ashoori, and 10 others.
[MIT News Office, 5.16.13]
- Ernest Moniz confirmed as Energy secretary
[Washington Post, 5.16.13] - Lawmakers visit MIT’s Alcator C-Mod tokamak
[MIT News Office, 5.16.13] - Hints of lightweight dark matter get even stronger
[New Scientist, 5.10.13] - Detmold, Fu, and Williams win DOE Early Career Awards
[MIT News Office, 5.8.13] - How greenhouse gases might make humongous super-Earths habitable [Christian Science Monitor, 5.5.13]
- Exoplanet Habitability [ScienceAAAS, 5.3.13]
- Cheaters lessen colony survival under stress in yeast experiment
[MIT News Office, 5.1.13] - An MIT physics MOOC five years in the making
[MIT News Office, 5.1.13] - Google Hangout: "TESS and the Search for Exoplanets" [5.1.13]
- MIT Physics one of four departments to receive 2013 APS Award for Improving Undergraduate Physics Education [APS Physics, 04.29.13]
- Perpetual Motion Test Could Amend Theory of Time
[Simons Foundation, 4.25.13] - Jaffe and Moniz elected to the American Academy of Arts and Sciences [MIT News Office, 4.24.13]
- The “What If?” Whiz [MIT Technology Review, 04.23.13]
- Beating Cancer at Its Own Game [MIT Technology Review, 4.23.13]
- 3Q: Enectali Figueroa-Feliciano on possible hints of dark matter
[MIT News Office, 4.22.13] - Why Does the Higgs Particle Matter? [Big Questions Online, 4.22.13]
- New five-planet system contains two that are in the ‘habitable zone’
[MIT News Office, 4.19.13] - More Physics in the News
- Subscribe to the MIT News Office Physics feed
