Connecting dopant bond type with electronic structure in N-doped graphene.

نویسندگان

  • Theanne Schiros
  • Dennis Nordlund
  • Lucia Pálová
  • Deborah Prezzi
  • Liuyan Zhao
  • Keun Soo Kim
  • Ulrich Wurstbauer
  • Christopher Gutiérrez
  • Dean Delongchamp
  • Cherno Jaye
  • Daniel Fischer
  • Hirohito Ogasawara
  • Lars G M Pettersson
  • David R Reichman
  • Philip Kim
  • Mark S Hybertsen
  • Abhay N Pasupathy
چکیده

Robust methods to tune the unique electronic properties of graphene by chemical modification are in great demand due to the potential of the two dimensional material to impact a range of device applications. Here we show that carbon and nitrogen core-level resonant X-ray spectroscopy is a sensitive probe of chemical bonding and electronic structure of chemical dopants introduced in single-sheet graphene films. In conjunction with density functional theory based calculations, we are able to obtain a detailed picture of bond types and electronic structure in graphene doped with nitrogen at the sub-percent level. We show that different N-bond types, including graphitic, pyridinic, and nitrilic, can exist in a single, dilutely N-doped graphene sheet. We show that these various bond types have profoundly different effects on the carrier concentration, indicating that control over the dopant bond type is a crucial requirement in advancing graphene electronics.

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عنوان ژورنال:
  • Nano letters

دوره 12 8  شماره 

صفحات  -

تاریخ انتشار 2012