Friday, June 14, 2013

1306.3196 (Feng Wang et al.)

Wide-gap Semiconducting Graphene from Nitrogen-seeded SiC    [PDF]

Feng Wang, Gang Liu, Sara Rothwell, Meredith Nevius, Antonio Tejeda, Amina Taleb-Ibrahimi, Leonard Feldman, Philip Cohen, Edward Conrad
All carbon electronics based on graphene has been an elusive goal. For more than a decade, the inability to produce significant band-gaps in this material has prevented the development of semiconducting graphene. While chemical functionalization was thought to be a route to semiconducting graphene, disorder in the chemical adsorbates, leading to low mobilities, have proved to be a hurdle in its production. We demonstrate a new approach to produce semiconducting graphene that uses a small concentration of covalently bonded surface nitrogen, not as a means to functionalize graphene, but instead as a way to constrain and bend graphene. We demonstrate that a submonolayer concentration of nitrogen on SiC is sufficient to pin epitaxial graphene to the SiC interface as it grows, causing the graphene to buckle. The resulting 3-dimensional modulation of the graphene opens a band-gap greater than 0.7eV in the otherwise continuous metallic graphene sheet.
View original: http://arxiv.org/abs/1306.3196

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