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Title: How Bilayer Graphene Got a Bandgap

Graphene is the two-dimensional crystalline form of carbon, whose extraordinary electron mobility and other unique features hold great promise for nanoscale electronics and photonics. But theres a catmore »ch: graphene has no bandgap. Now Feng Wang and his colleagues at Berkeley Lab and UC Berkeley have engineered a bandgap in bilayer graphene that can be precisely controlled from 0 to 250 milli-electron volts, which is the energy of infrared radiation.« less
Title: How Bilayer Graphene Got a Bandgap
Publication Date: 2009-06-02
OSTI Identifier: 987632
Other Number(s): Other: YouTube- How Bilayer Graphene Got a Bandgap
Resource Type: Multimedia
Specific Type: Multimedia Presentation
Subject: nanoscience  graphene  electronics  photonics  physics 
Publisher: Berkeley Lab Science Videos on YouTube
Country of Publication: United States
Language: English
Run Time: 0:02:01
System Entry Date: 2016-01-28